Entries |
Document | Title | Date |
20080206445 | Selective separation processes - This invention relates to a separation process comprising (i) introducing a vapor phase mixture into a condensing apparatus, said vapor phase mixture comprising at least one desirable component and at least one undesirable component; (ii) controlling the temperature in the condensing apparatus utilizing a heat-transfer gas; and (iii) operating the condensing apparatus at a temperature and a pressure sufficient to selectively condense at least a portion of said vapor phase mixture and thereby yield a recovered content containing said at least one desirable component. The separation process is useful in semiconductor applications such as recovery of unreacted organometallic compound precursors in chemical vapor deposition or atomic layer deposition processes. | 08-28-2008 |
20080206446 | RECYCLABLE DRY-PARTICLE BASED ADHESIVE ELECTRODE AND METHODS OF MAKING SAME - A dry process based capacitor and method for using one or more recyclable electrode film structure is disclosed. | 08-28-2008 |
20080213466 | HIGHLY CONDUCTING TRANSPARENT THIN POLYMERS FILMS FORMED FROM DOUBLE AND MULTIPLE LAYERS OF POLY(3,4, ETHYLENEDIOXYTHIOPHENE) AND ITS DERIVATIVES - A polymer film comprising at least two layers, wherein each layer comprises a compound comprising the formula: | 09-04-2008 |
20080226813 | Method and System for A Composite Polymer for Printed MEMS - An embodiment generally relates to a method for creating a composite material for micro-electro mechanical systems. The method includes determining a layout for a micro-electro mechanical system device and alternating depositing drops of polymer and drops of conductor to create an interwoven matrix based on the layout. The method also includes forming the micro-electro mechanical system device based on the layout, | 09-18-2008 |
20080233270 | Dielectric Paste for a Multi-Layered Ceramic Electronic Component and a Method for Manufacturing a Multi-Layered Unit for a Multi-Layered Ceramic Electronic Component - It is an object of the present invention to provide a method for fabricating a multi-layered unit for a multi-layered ceramic electronic component which can reliably prevent defects from being generated in a multi-layered ceramic electronic component and form a spacer layer in a desired manner. | 09-25-2008 |
20080233271 | Layered Structures And Method For Producing The Same - A method for producing membranes and membrane electrode units by laying thin film layers on a porous carrier substrate. The layers are applied using only one of several production methods, but have different functional properties. These membranes and membrane electrode units may be used to generate energy by electrochemical or photochemical processes, particularly applicable in fuel cells. | 09-25-2008 |
20080241355 | THIN FILM TRANSISTOR DEVICES HAVING HIGH ELECTRON MOBILITY AND STABILITY - Methods for depositing a gate insulator layer and a semiconductor layer onto a large area substrate with improved film uniformity, device mobility and stability are provided. The film properties of the gate insulator layer and the semiconductor layer are selected so that higher electron mobility (greater than 0.7 centimeters squared per voltage per second) is obtained, thereby efficiently enhancing the performance and stability of TFT devices. Improvements in film uniformity may also be realized. | 10-02-2008 |
20080248189 | MANUFACTURING METHOD OF ELECTRODE FOR ELECTROCHEMICAL ELEMENT - The invention presents a manufacturing method of an electrode for an electrochemical element for inserting and extracting a lithium ion reversibly, comprising; forming a concave portion and a convex portion at least on one side of a current collector, preparing a raw material containing a element for composing an active material, introducing a specified supply amount of the raw material and a carrier gas into a film forming device to form a plasma, and injecting the plasma of the raw material on the current collector, in which the active material is grown on the convex portion of the current collector, and a columnar body is formed by covering at least a part of respective sides of the convex portion. | 10-09-2008 |
20080280029 | Surface treatment method for solder joint - A surface treatment method for solder joint employs alkali buffer solution dipping the solder joint and the alkali buffer solution reacts with the solder joint thus yielding a passive layer. As the resultant passive layer forms on the surface of the solder joint, thereby prevents further corrosion and dissolution during aqueous cleaning or water dipping thereafter. In addition, the passive layer ensures a good appearance with maximum protection of the solder joint and also provides a sound reliability and a high testability of a finished electronic product equipped with the solder joint. | 11-13-2008 |
20080292782 | METHOD FOR FORMING AN ELECTRONIC PAPER DISPLAY - Methods form multi-color electrophoretic displays. The method includes providing a solution containing microcapsules, wherein the microcapsules comprise a shell that is transparent and a display medium within the shell, wherein the display medium comprised of either (a) at least two sets of differently colored particles in a substantially clear fluid, or (b) at least one set of colored particles in a differently colored fluid. The method includes dispensing the solution onto a substrate, wherein a display layer of microcapsules is formed on the substrate. The method includes positioning a conductive substrate adjacent to the substrate, wherein the substrate is located between the display layer and the conductive substrate, wherein the conductive substrate applies an electric field to at least one microcapsule of the display layer, wherein the sets of particles of each microcapsule in the display layer are movable within the microcapsule by the electric field to be displayed. | 11-27-2008 |
20080299293 | SOLVENT SYSTEM FOR CONJUGATED POLYMERS - A solvent system for a conjugated polymer that includes at least two different solvents, at least one first solvent and at least one second solvent wherein the second solvent comprises a heterocyclic ring to improve the characteristics of materials made therefrom. Use of the solvent system to improve the electronic and/or optoelectronic characteristics of materials that include conjugated polymers, such as polythiophenes, optionally including n-acceptors, which are cast from a composition that includes the solvent system. In some embodiments the improved characteristics include higher absorption of solar radiation, increased current densities and higher power conversion efficiencies. As a result, materials made with the present solvent systems are well-suited for use in a variety of electronic devices including, photovoltaic cells, light emitting diodes, and transistors. | 12-04-2008 |
20080317941 | METHOD FOR EJECTING LIQUID MATERIAL, METHOD FOR MANUFACTURING ORGANIC ELECTROLUMINESCENCE DEVICE, AND METHOD FOR MANUFACTURING COLOR FILTER - A method for ejecting a liquid material includes classifying the plurality of nozzles of a head into a plurality of nozzle groups having different landing position accuracies for droplets; and performing ejection includes main scanning for ejecting droplets of a liquid material through nozzles selected from the plurality of nozzles, while generating relative movement in a main-scanning direction between the head and a target substrate, and sub-scanning for generating relative movement between the head and the target substrate in a sub-scanning direction orthogonal to the main-scanning direction. The main scanning and the sub-scanning are performed separately for each of the plurality of nozzle groups. During the sub-scanning, relative movement between the head and the target substrate in the sub-scanning direction is generated in accordance with correction information for the corresponding nozzle group for correcting landing positions of the droplet. During the main scanning, a droplet is ejected through at least one nozzle selected from the corresponding nozzle group. | 12-25-2008 |
20080317942 | SEALANT FOR INK JET HEAD, INK JET HEAD, AND INK JET RECORDING APPARATUS - A sealant for an ink jet head includes at least an oxetane compound having a biphenyl skeleton, an alicyclic epoxy compound, and a cationic polymerization initiator. | 12-25-2008 |
20090011120 | Plasma Treating Apparatus, Electrode Member for Plasma Treating Apparatus, Electrode Member Manufacturing Method and Recycling Method - In a plasma treating apparatus for carrying out a plasma treatment by setting a plate-shaped work to be an object, an electrode member | 01-08-2009 |
20090022880 | SLIT COATER HAVING APPARATUS FOR SUPPLYING A COATER SOLUTION - A slit coater including an apparatus for supplying coating solution by a coating method using a slit nozzle, which is configured to minimize contamination of coating solution, utilizing a filtering function, and supplying a controlled amount of photosensitive solution to a slit nozzle. The slit coater further includes a table on which an object to be processed is mounted, a slit nozzle unit that applies coating solution onto a surface of the object to be processed, and a coating solution supply apparatus including a storage tank that stores the coating solution, a pump that supplies the coating solution stored in the storage tank to the slit nozzle unit, and a buffer tank that is in fluid communication with the pump and the storage tank. | 01-22-2009 |
20090029031 | Methods for forming electrodes in phase change memory devices - A method for forming electrode materials uniformly within openings having small dimensions, including sublithographic dimensions, or high aspect ratios. The method includes the steps of providing an insulator layer having an opening formed therein, forming a non-conformal conductive or semiresistive material over and within the opening, and mobilizing the conductive material to densify it within the opening. The method reduces the concentration of voids or defects in the conductive or semiresistive material relative to the as-deposited state. The mobilizing step may be accomplished by extrusion or thermal reflow and causes voids or defects to coalesce, collapse, percolate, or otherwise be removed from the as-deposited conductive or semiresistive material. | 01-29-2009 |
20090035452 | Photosensitive paste and manufacturing method of member for display panel - A photosensitive paste is provided with which a member for a display panel having superior visibility can be manufactured with simple steps, and with the photosensitive paste including a soft magnetic powder, a glass powder, and a photosensitive organic component, in which the mass ratio of the soft magnetic powder (A) to the glass powder (B) is in the range of 20/80 to 70/30. | 02-05-2009 |
20090041928 | FORMULATION AND METHOD FOR DEPOSITING A MATERIAL ON A SUBSTRATE - A formulation for depositing a material on a substrate, the formulation comprising the material to be deposited on the substrate dissolved in a solvent system comprising a first solvent component having a relatively high boiling point and which exhibits a relatively low solubility with respect to the material to be deposited, and a second solvent component having a relatively low boiling point and which exhibits a relatively high solubility with respect to the material to be deposited. | 02-12-2009 |
20090047420 | Ink Discharging Apparatus and Ink Discharging Method - The present invention provides an ink discharging apparatus capable of forming a high-quality film. An ink discharging apparatus ( | 02-19-2009 |
20090053395 | Method and System for Imaging a Cross Section of a Specimen - A method and a system for obtaining an image of a cross section of a specimen, the method includes: milling the specimen so as to expose a cross section of the specimen, whereas the cross section comprises at least one first portions made of a first material and at least one second portion made of a second material; smoothing the cross section; performing gas assisted etching of the cross section so as generate a topography difference between the at least one first portion and the at least one second portion of the cross section; coating the cross section with a thin layer of conductive material; and obtaining an image of the cross section; wherein the milling, smoothing, performing, coating and obtaining are preformed while the specimen is placed in a vacuumed chamber. | 02-26-2009 |
20090068341 | POSITIVE PHOTORESIST COMPOSITION, THICK FILM PHOTORESIST LAMINATE, METHOD FOR PRODUCING THICK FILM RESIST PATTERN, AND METHOD FOR PRODUCING CONNECTING TERMINAL - This positive photoresist composition is a positive photoresist composition for exposing to light having one or more wavelengths selected from g-rays, h-rays and i-rays, comprising: (A) a compound which generates an acid under irradiation with active rays or radiation, and (B) a resin whose solubility in an alkali is enhanced by an action of an acid, wherein the component (A) contains an onium salt (A1) having a naphthalene ring in the cation moiety. | 03-12-2009 |
20090068342 | POSITIVE PHOTORESIST COMPOSITION, THICK FILM PHOTORESIST LAMINATE, METHOD FOR PRODUCING THICK FILM RESIST PATTERN, AND METHOD FOR PRODUCING CONNECTING TERMINAL - The present invention provides a positive photoresist composition used to form a thick film resist pattern on a support which includes (A) a compound that generates acid on irradiation with active light or radiation, and (B) a resin that displays increased alkali solubility under the action of acid, wherein the component (B) includes a resin (B1) which has a structural unit (b1) derived from an acrylate ester, in which a hydrogen atom of a carboxyl group has been substituted with an acid dissociable, dissolution inhibiting group represented by represented by a general formula (I) shown below: | 03-12-2009 |
20090068343 | COMPOSITION FOR FORMING ALIGNMENT FILM AND METHOD FOR MANUFACTURING LIQUID CRYSTAL DEVICE - A composition for forming an alignment film used during formation of an alignment film with a droplet discharge method includes a solute, a first organic solvent and a second organic solvent. The solute includes an alignment film formation material. The first organic solvent dissolves the solute. The second organic solvent is for controlling surface tension. The second organic solvent has an alkyl end group. | 03-12-2009 |
20090068344 | System and method for manufacturing thin film electrical devices - A system for manufacturing a thin film electrical device is provided in accordance with an exemplary embodiment. The system includes a chamber and a gas gate. The chamber includes accumulating apparatus therein configured for gathering a portion of the substrate within the chamber. The gas gate provides fluid communication between a pressure region of the chamber and a second pressure region. | 03-12-2009 |
20090074950 | Methods of Forming Charge-Trapping Regions - Some embodiments include methods of forming charge-trapping zones. The methods may include forming nanoparticles, transferring the nanoparticles to a liquid to form a dispersion, forming an aerosol from the dispersion, and then directing the aerosol onto a substrate to form charge-trapping centers comprising the nanoparticles. The charge-trapping zones may be incorporated into flash memory cells. | 03-19-2009 |
20090074951 | SUBSTRATES HAVING THROUGH-HOLE VIAS AND METHOD OF MAKING SAME - A sensor assembly for sensors such as microfabricated resonant sensors is disclosed. The disclosed assembly provides improved performance of the sensors by providing a thermally insensitive environment and short pathways for signals to travel to processing components. Further, the assembly provide modular construction for the sensors and housing modules, thereby allowing replacement of the sensors at a lower cost. The assembly includes a sensor module including a sensor formed on a conductive substrate with a cavity formed on one surface. The substrate has conductive vias extending from the cavity to a second surface of the substrate. A housing assembly accommodates the sensor and includes a rigid housing, preferably made from a ceramic. An electronic component, such as an amplifier, is mounted on the rigid housing. The electronic component electrically engages the vias substantially at the second surface of the substrate. The electronic component receive signals from the sensor through the vias. The signals are then processed through an amplifier and a digital signal processor using a modified periodogram. | 03-19-2009 |
20090087544 | METHOD OF FABRICATING A MEMORY CELL - The memory cell of the present invention has two independent storage regions embedded into two opposite sidewalls of the control gate respectively. In this way, the data storage can be more reliable. Other features of the present invention are that the thickness of the dielectric layers is different, and the two independent storage regions are formed on opposite bottom sides of the opening by the etching process and form a shape like a spacer. The advantage of the aforementioned method is that the fabricating process is simplified and the difficulty of self-alignment is reduced. | 04-02-2009 |
20090098277 | Method and apparatus for applying electrode mixture paste - An electrode mixture paste application method includes: a first step of unwinding a core material ( | 04-16-2009 |
20090098278 | Method of preparing positive active material for a lithium secondary battery - A process of manufacturing a positive active material for a lithium secondary battery includes adding a metal source to a doping element-containing coating liquid to surface-treat the metal source, wherein the metal source is selected from the group consisting of cobalt, manganese, nickel, and combination thereof; drying the surface-treated metal source material to prepare a positive active material precursor; mixing the positive active material precursor with a lithium source; and subjecting the mixture to heat-treatment. Alternatively, the above drying step during preparation of the positive active material precursor is substituted by preheat-treatment or drying followed by preheat-treatment. | 04-16-2009 |
20090110806 | METHOD FOR PRODUCING AN ELECTRODE AND DEVICE - A method includes: coat a slurry that includes a carbon material, a water-insoluble binder, and a water-soluble polymer on a surface of a current collector to form a template structure; then dry the template structure; and finally, contact the template structure to an aqueous solution, and thereby to remove the water-soluble polymer and to form at least one electrode having a plurality of pores. | 04-30-2009 |
20090123641 | REINFORCED ION-CONDUCTIVE MEMBRANES - An ion-conductive membrane that includes a first layer comprising a first ionomer, and a porous polymer substrate, where at least a portion of the first ionomer is interpenetrated within the porous polymer substrate by ionomer-induced phase separation. | 05-14-2009 |
20090130295 | High Definition Printing With Waterborne Inks on Non-Porous Substrates - Compositions comprising a silyl-containing copolymer of a monomer system comprising:
| 05-21-2009 |
20090142473 | Method of operating a processing chamber used in forming electronic devices - Provided herein is a method of processing an electronic device including operating a processing chamber at a first temperature while a workpiece is being processed and removing the workpiece and a carrier holding the workpiece from the processing chamber while decreasing the temperature within the processing chamber to a second temperature significantly lower than the first temperature. The method also includes increasing the temperature within the processing chamber to a third temperature significantly greater than the second temperature and significantly less than the first temperature while the processing chamber has no workpiece or carrier within. | 06-04-2009 |
20090142474 | RUTHENIUM AS AN UNDERLAYER FOR TUNGSTEN FILM DEPOSITION - Embodiments of the invention provide a method for depositing materials on substrates. In one embodiment, the method includes depositing a barrier layer containing tantalum or titanium on a substrate, depositing a ruthenium layer or a cobalt layer on the barrier layer, and depositing a tungsten bulk layer thereover. In some examples, the barrier layer may contain tantalum nitride deposited by an atomic layer deposition (ALD) process, the tungsten bulk layer may be deposited by a chemical vapor deposition (CVD) process, and the ruthenium or cobalt layer may be deposited by an ALD process. The ruthenium or cobalt layer may be exposed to a soak compound, such as hydrogen, diborane, silane, or disilane, during a soak process prior to depositing the tungsten bulk layer. In some examples, a tungsten nucleation layer may be deposited on the ruthenium or cobalt layer, such as by ALD, prior to depositing the tungsten bulk layer. | 06-04-2009 |
20090148593 | Methods and systems for forming reagent with reduced background current - Systems and methods for electrochemically oxidizing components of a test-sensor reagent prior to deposition on a test sensor comprise at least a first electrode and a second electrode for contacting the test-sensor reagent. The first electrode and the second electrode may have hollow interior portions for contacting the test-sensor reagent to produce a modified test-sensor reagent having a reduced background current. | 06-11-2009 |
20090155454 | HIGHER ORDER SILANE COMPOSITION, METHOD FOR MANUFACTURING FILM-COATED SUBSTRATE, ELECTRO-OPTICAL DEVICE AND ELECTRONIC DEVICE - A higher order silane composition, includes: a higher order silane compound; and a solvent containing one of a substituted hydrocarbon based solvent and an unsubstituted hydrocarbon based solvent. As the solvent, a solvent having a refractive index of 1.53 or more is selected so that the higher order silane compound is dissolved therein. | 06-18-2009 |
20090162534 | Membrane and method for the production of the same - A method for producing a membrane for a device, e.g. a microphone, includes providing a substrate is provided on which a counter electrode is disposed. A sacrificial layer is provided on a surface of the counter electrode facing away from the substrate. The surface of the sacrificial layer facing away from the counter electrode is structured to form a plurality of recesses in the surface to define one or several antistick elements and one or several corrugation grooves at the same time. Subsequently, a membrane material is deposited on the structured surface of the sacrificial layer. Then, the sacrificial layer is removed to form the membrane, which has one or several corrugation grooves and one or several antistick elements. | 06-25-2009 |
20090169721 | AMPHIPHILIC BLOCK COPOLYMERS FOR IMPROVED FLUX APPLICATION - Embodiments include materials which may be used during electronic device fabrication, including a flux material. The flux material comprises a solution including a plurality of micellar structures in a solvent, the micellar structures each including a plurality of amphiphilic block copolymer elements. The amphiphilic block copolymer elements each include at least one non-polar region and at least one polar region. A fluxing agent is contained within the micellar structures. Other embodiments are described and claimed. | 07-02-2009 |
20090191328 | POLYMER FOR FORMING HYDROPHOBIC LAYER, HYDROPHOBIC LAYER COMPRISING THE POLYMER AND ELECTRONIC ARTICLE COMPRISING THE HYDROPHOBIC LAYER - Provided are hydrophobic layer formed by polymer represented by Formula 1 below and has a weight average molecular weight of about 10,000 to about 500,000 g/mol, hydrophobic layer including the polymer and an electronic articles including the hydrophobic layer: | 07-30-2009 |
20090202707 | Method and apparatus for applying electrode mixture paste - A method for applying electrode mixture paste in which a strip of core material ( | 08-13-2009 |
20090214762 | SPATIOTEMPORAL AND GEOMETRIC OPTIMIZATION OF SENSOR ARRAYS FOR DETECTING ANALYTES IN FLUIDS - Sensor arrays and sensor array systems for detecting analytes in fluids. Sensors configured to generate a response upon introduction of a fluid containing one or more analytes can be located on one or more surfaces relative to one or more fluid channels in an array. Fluid channels can take the form of pores or holes in a substrate material. Fluid channels can be formed between one or more substrate plates. Sensor can be fabricated with substantially optimized sensor volumes to generate a response having a substantially maximized signal to noise ratio upon introduction of a fluid containing one or more target analytes. Methods of fabricating and using such sensor arrays and systems are also disclosed. | 08-27-2009 |
20090220678 | Positive electrode for use in lithium cell and lithium cell using the same - A positive electrode for use in a lithium battery using water as a dispersion medium, not causing a problem of deteriorating the battery performance due to corrosion of a collector or the like and not forming unevenness on the coating surface, as well as a lithium battery using the positive electrode, the positive electrode used being formed from a positive electrode paste containing a positive electrode active material represented by the following formula (I), a binder ingredient comprising a water dispersible elastomer and a water soluble polymer as a viscosity improver, water as a dispersion medium and a dispersing agent: | 09-03-2009 |
20090232969 | ELECTRONIC DEVICES - A method of producing an electronic device including the steps of: (i) providing a body including a first, conductive element separated from a first surface of said body by a portion of said body; (ii) removing a selected portion of said body to define a recess in said body extending from said first surface and via which a portion of said first element is exposed; and (iii) putting into said recess a liquid medium carrying a first material; wherein said first material is preferentially deposited on the exposed inner surface of said body defining said recess, and wherein the deposited first material is used to provide a connection between said first element and a second conductive element located within said body or later deposited over said first surface of said body. | 09-17-2009 |
20090238952 | METHOD OF MANUFACTURING SLIDER - The method of manufacturing a head slider is capable of improving a floating characteristic and an electromagnetic conversion characteristic of the head slider. The method comprises the steps of: forming terminals on a leading end face of a row bar; forming a resist pattern, which corresponds to a configuration of an air bearing surface section to be formed on a facing surface of the row bar; partially thinning the facing surface of the row bar until reaching a groove surface so as to form the air bearing surface section; forming a base layer of a step section on the groove surface; forming a heater circuit, which is electrically connected to the terminals, on the base layer; and coating the base layer, on which the heater circuit has been formed, with a thermal expansion material layer so as to form the step section. | 09-24-2009 |
20090246355 | Integrated circuit tampering protection and reverse engineering prevention coatings and methods - A method of protecting an electronics package is discussed along with devices formed by the method. The method involves providing at least one electronic component that requires protecting from tampering and/or reverse engineering. Further, the method includes mixing into a liquid glass material at least one of high durability micro-particles or high-durability nano-particles, to form a coating material. Further still, the method includes depositing the coating material onto the electronic component and curing the coating material deposited. | 10-01-2009 |
20090274829 | Method of Resisting Dust and Dirt with Nanotechnology - A method of resisting dust and dirt with nanotechnology applied to electronic products is described hereinafter. Firstly, make an initial reactant into a metal oxide gel of nanometer by way of a sol-gel method. Secondly, dilute the metal oxide gel of nanometer with a diluent to form a coating solution, and then stand the coating solution for a period of time to make the metal oxide gel of nanometer and the diluent well mixed each other. Next, coat the coating solution onto surfaces of the electronic products evenly. Lastly, put the electronic products coated with the coating solution under a room temperature to make the coating solution evaporated so as to form protective films on the surfaces of the electronic products. | 11-05-2009 |
20090280235 | Tools and methods for processing microelectronic workpieces using process chamber designs that easily transition between open and closed modes of operation - Strategies for tool designs and their uses wherein the tools can operate in either closed or open modes of operation. The tools easily transition between open and closed modes on demand. According to one general strategy, environmentally controlled pathway(s) couple the ambient to one or more process chambers. Air amplification capabilities upstream from the process chamber(s) allow substantial flows of air to be introduced into the process chamber(s) on demand. Alternatively, the fluid pathways are easily closed, such as by simple valve actuation, to block egress to the ambient through these pathways. Alternative flows of nonambient fluids can then be introduced into the process chamber(s) via pathways that are at least partially in common with the pathways used for ambient air introduction. In other strategies, gap(s) between moveable components are sealed at least with flowing gas curtains rather than by relying only upon direct physical contact for sealing. | 11-12-2009 |
20090280236 | Liquid crystal alignment agent and liquid crystal alignment film formed therefore and manufacturing method thereof - The present invention provides a free radical polymerizable liquid crystal alignment agent having superior coating ability, a manufacturing method, which comprises the process of coating the liquid crystal alignment agent onto a substrate, and processing the liquid crystal alignment agent with dehydration/ring-closure reaction and free radical polymerization, enables obtaining a liquid crystal alignment film with superior reliability, superior voltage holding ratio and easy control of pretilt angle, and enables the manufacture of a liquid crystal display element provided with a liquid crystal alignment film. The free radical polymerizable liquid crystal alignment agent comprises a molecular compound containing at least 2 polymerizable maleamic acid groups (A), a polymer (B) and an organic solvent (C), in which the polymer (B) comprises at least one kind of polymer obtained from condensation polymerization, which is selected from the groups consisting of polyester, polyesterimide, polyamide-imide acid, polyamide-imide, polyamide acid ester, polyamide and polyimide series polymer. | 11-12-2009 |
20090304907 | COATING SYSTEM AND METHOD FOR COATING A SUBSTRATE - A coating system comprises a lock-in chamber and a lock-out chamber. Furthermore, the coating system comprises a first transfer chamber connected with the lock-in chamber and the lock-out chamber. In the transfer chamber a first rotatable transfer module is arranged. The substrate holders may be rotated around a central axis such that substrate holders may be positioned in alignment with the lock-in chamber and the lock-out chamber, respectively. The coating station further includes a first process chamber and a second process chamber. Furthermore, the coating system includes a second transfer chamber having a second rotatable transfer module including a third substrate holder and a fourth substrate holder. The second transfer chamber is connected with the first process chamber and the second process chamber as well as a third process chamber and a fourth process chamber. The third process chamber and the fourth process chamber are arranged parallel, i.e., like a cluster arrangement, at the second transfer chamber. The invention provides for a possibility to increase the availability of the system by a sandwich arrangement of two parallel coating chambers and arranged on a forward path and a return path, respectively, between two transfer chambers which are configured to transfer the substrate from the forward path to the return path and vice versa. | 12-10-2009 |
20090304908 | Methods of fabricating plasticized, antiplasticized and crystalline conducting polymers and precursors thereof - Methods of forming materials containing precursors to electrically conductive polymers and electrically conductive polymers are described which have a high degree of crystallinity. The high degree of crystallinity is achieved by preparing the materials under conditions which provide a high degree of mobility to the polymer molecules permitting them to associate with one another to form a crystalline state. High levels of electrical conductivity are achieved in in the electrically conductive materials without stretch orienting the material. The enhanced electrical conductivity is isotropic as compared to a stretch oriented film which has isotropic electrical conductivity. In the preferred embodiment, additives are added to a solution containing a solvent and the precursor or electrically conductive polymer. The additives are preferably plasticizer of diluents. As the solvent is removed the material dries and contains a higher degree of crystallinity than in the absence of the additive. | 12-10-2009 |
20090324806 | METHOD AND APPARATUS FOR DISPENSING A VISCOUS FLUID - A method for dispensing a viscous liquid onto a rotating, disk-shaped substrate comprises the steps of Positioning the tip of a nozzle for dispensing said viscous liquid at a first distance relative to a surface of said substrate during start of the dispensing, thereby allowing the viscous liquid ( | 12-31-2009 |
20090324807 | METHOD FOR FORMING A POROUS MATERIAL - A method for forming a porous material is to mix a porous first basic material with a sacrificial material compatible with the first basic material to let the sacrificial material permeate into the pores of the first basic material to form a first finished product. Subsequently, the first finished product is mixed with a second basic material and heated over the vaporization temperature of the sacrificial material to let the ingredients of the second basic material change and increase viscous force and impossible to enter the pores of the first basic material. Simultaneously, the sacrificial material is heated and vaporized to exhaust out of the pores of the first basic material, disabling the second basic material to permeate into the pores of the first basic material and thus forming a second finished product for reserving the ingredients in the pores of the first basic material. | 12-31-2009 |
20090324808 | METHOD OF REMOVING UNWANTED SULPHUR COMPOUNDS FROM THE INSULATING OIL OF AN ELECTRICAL APPARATUS - A method of treating copper sulfide deposits on materials and surfaces that are in contact with electrically insulating oil inside an electrical apparatus. The copper sulfide deposits on materials and surfaces are subjected to treatment with an iodine compound causing a substitution reaction with the copper sulfide. | 12-31-2009 |
20100009066 | Waterbased compositions for casting or printing - The present invention relates to a method for providing a composition comprising water-soluble aggregates comprising an oxidized conductive polymer and a polymeric acid, comprising: providing a preparation comprising an oxidized or oxidizable conductive polymer and an organic solvent; | 01-14-2010 |
20100015325 | Method and Apparatus for Applying A Layer of A Second Material To A Layer of a Nanocrystalline First Material - Method for applying a layer of a second material to a layer of a nanocrystalline first material, comprising the steps of (i) providing a layer of a nanocrystalline first material on a horizontal substrate, (ii) providing a liquid containing the second material, (iii) providing a tubular dispensing means to be disposed horizontally and provided with lateral outlet openings, (iv) disposing the dispensing means above the layer of nanocrystalline material, and (v) displacing the dispensing means and the layer of nanocrystalline material relative to each other in lateral horizontal direction of the dispensing means, while simultaneously supplying the liquid with the second material to the dispensing means, and apparatus for performing this method. | 01-21-2010 |
20100015326 | Small Volume In Vitro Sensor and Methods of Making - A sensor utilizing a non-leachable or diffusible redox mediator is described. The sensor includes a sample chamber to hold a sample in electrolytic contact with a working electrode, and in at least some instances, the sensor also contains a non-leachable or a diffusible second electron transfer agent. The sensor and/or the methods used produce a sensor signal in response to the analyte that can be distinguished from a background signal caused by the mediator. The invention can be used to determine the concentration of a biomolecule, such as glucose or lactate, in a biological fluid, such as blood or serum, using techniques such as coulometry, amperometry, and potentiometry. An enzyme capable of catalyzing the electrooxidation or electroreduction of the biomolecule is typically provided as a second electron transfer agent. | 01-21-2010 |
20100055298 | PROCESS KIT SHIELDS AND METHODS OF USE THEREOF - Process kit shields for use in a process chamber and methods of use thereof are provided herein. In some embodiments, the process kit shield may include a body having a wall comprising a first layer and a second layer bonded to the first layer, wherein the first layer comprises a first material resistant to a cleaning chemistry utilized to remove material disposed on the first layer during processing, and wherein the second layer comprises a second material different than the first material and having a coefficient of thermal expansion substantially similar to that of the first material. In some embodiments, the process kit shield may be disposed in a process chamber having a processing volume and a non-processing volume. The process kit shield may be disposed between the processing volume and the non-processing volume | 03-04-2010 |
20100055299 | DISPENSING PATTERNS INCLUDING LINES AND DOTS AT HIGH SPEEDS - A method for depositing a material on a substrate includes providing an apparatus with at least one material dispenser. The method further includes positioning the pen tip at a predetermined writing gap where the predetermined writing gap is a distance of more than 75 micrometers above the substrate. The method also provides for controlling velocity of the flow of material through the outlet and dispense speed based on dispensed line height and dispensed line width parameters. An apparatus for depositing a material on a substrate is also provided which may have one or more mechanical vibrators, a pen tip with a hydrophobic surface, or multiple nozzles and pen tips on a single pump. | 03-04-2010 |
20100055300 | Methods and Apparatus Configurations for Affecting Movement of Fluids Within a Microelectronic Topography Processing Chamber and a Method for Passivating Hardware Within a Microelectronic Topography Processing Chamber - An apparatus for processing microelectronic topographies, a method of use of such an apparatus, and a method for passivating hardware of microelectronic processing chambers are provided. The apparatus includes a substrate holder configured to support a microelectronic topography and a rotatable case with sidewalls arranged on opposing sides of the substrate holder. The method of using such an apparatus includes positioning a microelectronic topography upon a substrate holder of a processing chamber, exposing the microelectronic topography to a fluid within the processing chamber, and rotating a case of the processing chamber. The rotation is sufficient to affect movement of the fluid relative to the surface of the microelectronic topography. A method for passivating hardware of a microelectronic processing chamber includes exposing the hardware to an organic compound and subsequently exposing the hardware to an agent configured to form polar bonds with the organic compound. | 03-04-2010 |
20100062146 | METHOD FOR PRODUCING BATTERY ELECTRODE AND APPARATUS FOR PRODUCING BATTERY ELECTRODE - The amount of a paint for forming a porous heat-resistant layer supplied to the outer surface of a gravure roll is adjusted by removing the paint with a blade that is disposed so as to contact the outer surface. A resin blade is used, and the position at which the resin blade contacts the outer surface of the gravure roll is changed as the resin blade wears away. This prevents the amount of the paint for forming the porous heat-resistant layer removed from the outer surface of the gravure roll from changing as the resin blade wears away, so that the excess amount of the paint carried on the outer surface of the gravure roll is removed with good accuracy. An almost constant amount of the paint is thus transferred to an electrode surface from the outer surface of the gravure roll, and a porous heat-resistant layer with an almost uniform thickness is stably formed on an industrial scale. | 03-11-2010 |
20100062147 | FILM-FORMATION METHOD, METHOD FOR MANUFACTURING ELECTRO-OPTICAL DEVICE, ELECTRO-OPTICAL DEVICE, AND ELECTRONIC APPARATUS - A film-formation method is a method for depositing a liquid containing a film material to form a film in a prescribed film formation area enclosed by a partition wall on a substrate. The film-formation method includes forming the partition wall using at least in part a wettability-variable material in which wettability with respect to the liquid is variable, depositing the liquid in the film formation area, varying the wettability of the wettability-variable material in the partition wall in a state in which the liquid is disposed within the film formation area so that liquid affinity of the wettability-variable material becomes higher than liquid affinity of the wettability-variable material before the liquid is deposited in the film formation area, and forming the film by solidifying the film material in the liquid. | 03-11-2010 |
20100075022 | ELECTRODE PRODUCING METHOD AND ELECTRODE PRODUCING APPARATUS - The present invention provides an electrode producing method capable of uniformly depositing a coating solution on a sheet with projections on a surface. | 03-25-2010 |
20100075023 | ELECTRODE MANUFACTURING APPARATUS AND ELECTRODE MANUFACTURING METHOD - An electrode manufacturing apparatus comprises a conveying section for conveying a current collector sheet having a plurality of through holes; a backup roll for guiding the conveyed current collector sheet; an applicator for supplying a coating liquid to the current collector sheet on the backup roll; and a nip roll for pressing a part of the current collector sheet where the coating liquid is not supplied yet from the applicator against the backup roll. | 03-25-2010 |
20100080890 | APPARATUS AND METHOD FOR REDUCING SLIPPAGE BETWEEN STRUCTURES IN AN INTERFEROMETRIC MODULATOR - A support structure within an interferometric modulator device may contact various other structures within the device. Increased bond strengths between the support structure and the other structures may be achieved in various ways, such as by providing roughened surfaces and/or adhesive materials at the interfaces between the support structures and the other structures. In an embodiment, increased adhesion is achieved between a support structure and a substrate layer. In another embodiment, increased adhesion is achieved between a support structure and a moveable layer. Increased adhesion may reduce undesirable slippage between the support structures and the other structures to which they are attached within the interferometric modulator. | 04-01-2010 |
20100086674 | NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY AND METHOD OF PRODUCING COATING FOR NEGATIVE ELECTRODE ACTIVE MATERIAL THEREOF - A non-aqueous electrolyte secondary battery having a positive electrode and a negative electrode with an active material capable of absorbing and desorbing lithium, a separator interposed between the positive and negative electrodes, and a non-aqueous electrolyte. The negative electrode active material is covered by a coating having elasticity. The fully elastic coating expands and contracts following the volume change of the negative electrode active material; thus, the coating brings out its desired functions without being damaged or broken. Regardless of the degree of the volume change of the negative electrode active material, a lasting coating without damage is formed on the negative electrode active material, to improve performances of the non-aqueous electrolyte secondary battery. | 04-08-2010 |
20100092656 | PRINTABLE IONIC STRUCTURE AND METHOD OF FORMATION - An ionic structure, including a plurality of electrodes and an ion conductor, wherein at least one of the electrodes and the ion conductor is formed using a printing technique and a method of forming and using the structure are disclosed. Electrical properties of the structure may be altered by applying energy to the structure, and thus information may be stored using the structure. The structure may also be used to form an electrical connection within portions of a device and/or between devices. | 04-15-2010 |
20100092657 | CERAMIC COMPACT, CERAMIC PART, METHOD FOR PRODUCING CERAMIC COMPACT, AND METHOD FOR PRODUCING CERAMIC PART - A ceramic compact having a patterned conductor is obtained by coating the patterned conductor with a slurry and then by hardening the slurry. The slurry is prepared by mixing a thermosetting resin precursor, a ceramic powder, and a medium. In the ceramic compact, an isocyanate- or isothiocyanate-containing gelling agent and a hydroxyl-containing polymer are reacted and hardened to produce a thermosetting resin. The hydroxyl-containing polymer is preferably a butyral resin, an ethylcellulose-based resin, a polyethyleneglycol-based resin, or a polyether-based resin. | 04-15-2010 |
20100098838 | Tunable Dielectric Compositions and Methods - Methods of tuning a printable dielectric layer, dielectric layers made by the method, and devices incorporating the dielectric layers. One such method includes printing a first dielectric composition and a second dielectric composition onto a substrate to provide a mixed composition. The first dielectric composition includes a first concentration of dispersed particles in a carrier fluid and the second dielectric composition includes a polymeric binder component. The mixed composition has a second concentration of particles. | 04-22-2010 |
20100104739 | SURFACE TREATING METHOD FOR PROBE CARD IN VACUUM DEPOSITION DEVICE - A treating method for a probe card in a vacuum deposition device, the probe card having a plurality of probes. The treating method includes: (a) preparing a shield body having a lower shield plate and an upper shield plate disposed above the lower shield plate and having a through hole; (b) placing the probe card into the shield body and between the lower and upper shield plates; (c) disposing the shielded probe card and the shield body into a vacuum deposition device such that at least a portion of each of the probes is exposed from the through hole, and that a circuit of the printed circuit board is shielded by the lower and upper shield plates; and (d) depositing at least one film on each of the probes through the through hole and within the vacuum deposition device. | 04-29-2010 |
20100112191 | SYSTEMS AND ASSOCIATED METHODS FOR DEPOSITING MATERIALS - Several embodiments of systems for depositing materials and associated methods of operation are disclosed herein. In one embodiment, the system includes a reaction chamber having an inlet and an outlet, a gas source coupled to the inlet of the reaction chamber, and a neutralizer source coupled to the outlet of the reaction chamber. The gas source contains a first precursor gas, a second precursor gas, and a purge gas. The neutralizer source contains a neutralizing agent configured to reduce a rate of reaction between the first precursor gas and the second precursor gas. | 05-06-2010 |
20100124602 | EASILY FLOWING INKS FOR EXTRUSION - This disclosure is generally directed to inks used to create fine features for electrodes, batteries, solar cells, etc. More particularly, in embodiments, this disclosure is directed to compositions of easily flowable inks that result in reduced clogging when applying the ink to a substrate to create fine features. The inks are characterized by their rheological properties, particularly with respect to viscosity and flowability. Flowability is measured by measuring the quantity of ink which will flow through a 400 mesh screen. Also disclosed are methods of applying the easily flowable inks. The inks are applied using extrusion processes, particularly coextrusion. Coextrusion of the inks allows fine features having high aspect ratios to be formed without clogging of the coextrusion printhead. | 05-20-2010 |
20100129526 | SUBSTRATE PROCESSING APPARATUS - A method of processing a substrate in a substrate processing apparatus that is arranged adjacent to an exposure device and includes first, second and third processing units, includes the steps of forming a film made of a photosensitive material on the substrate by said first processing unit before exposure processing by said exposure device. The method also includes applying drying processing to the substrate by said second processing unit after the exposure processing by said exposure device and applying development processing to the substrate by said third processing unit after the drying processing by said second processing unit | 05-27-2010 |
20100136218 | CLEANING OF A SUBSTRATE SUPPORT - A method of fabricating a cleaning wafer capable of cleaning process residues from a substrate support surface is disclosed. The method comprises providing a cleaning disc, and applying a liquid polymer precursor to the cleaning disc by spraying or spin coating the liquid polymer precursor onto the disc to form a polymer precursor film on the disc. The polymer precursor film is cured to form a polymer layer having a cleaning surface. | 06-03-2010 |
20100143580 | Stabilization of Bicycloheptadiene - Disclosed are stabilized bicyclo[2.2.1]hepta-2,5-diene compositions and methods of making and using the same. | 06-10-2010 |
20100151118 | CARRIER SOLVENT COMPOSITIONS, COATINGS COMPOSITIONS, AND METHODS TO PRODUCE THICK POLYMER COATINGS - Compositions and methods useful for the coating of polymeric materials onto substrates, for example, electronic device substrates such as semiconductor wafers, are provided. These compositions and methods are particularly suitable manipulating thickness of a polymeric coating in a single coating event. Such methods to control photoresist thickness are used to facilitate the layering of electronic circuitry in a three-dimensional fashion. Furthermore, the compositions of the present invention may be effectively used to deposit thick films of polymeric material in a uniform manner onto inorganic substrates which provides a significant benefit over conventional systems. | 06-17-2010 |
20100151119 | VACUUM VESSEL, VACUUM PROCESSING APPARATUS INCLUDING VACUUM VESSEL, VACUUM VESSEL MANUFACTURING METHOD, AND ELECTRONIC DEVICE MANUFACTURING METHOD - A vacuum vessel includes a pair of bending members which are formed by bending metal plates in predetermined shapes and are bonded to each other to form a closed space inside them. The vacuum vessel also includes a sealing member which seals the gap in the bonding portion between the bending members, and a cubic lattice structure which abuts against the inner surfaces of both the bending members and is accommodated in the closed space. The vacuum vessel further includes a magnet unit. The magnet unit fixes the bending members onto the structure and seals the gap in the bonding portion between the bending members by pressing an O-ring serving as a sealing member along the bonding portion. | 06-17-2010 |
20100159122 | DEPOSITION FILM FORMING APPARATUS, DEPOSITION FILM FORMING METHOD AND ELECTROPHOTOGRAPHIC PHOTOSENSITIVE MEMBER MANUFACTURING METHOD - The present invention provides a deposition film forming apparatus including a reaction container, an exhaust device and an exhaust gas flow path for causing a material gas to flow from the reaction container to the exhaust device, wherein the exhaust gas flow path includes a portion whose cross section expands with a step with respect to a direction in which the material gas flows and the deposition film forming apparatus further includes a cleaning gas flow device for causing the cleaning gas to directly flow into a region closer to the exhaust device side than the step of the exhaust gas flow path, a deposition film forming method using the deposition film forming apparatus and a method of manufacturing an electrophotographic photosensitive member using the deposition film forming method. | 06-24-2010 |
20100166946 | METHOD OF MANUFACTURING DISPLAY ELEMENT - Disclosed is a method of manufacturing an electrochromic display element having improved durability. Specifically disclosed is a method of manufacturing a display element containing opposed electrodes and a porous layer which is arranged between the opposed electrodes and containing a metal oxide and an electrochromic dye supported on the metal oxide. The method contains the step of applying plural kinds of inks to the porous layer by an inkjet apparatus, wherein the inks are capable of uniformizing the amount of the electrochromic dye supported on the porous layer containing the metal oxide in one pixel of the display element. | 07-01-2010 |
20100166947 | SUBSTRATE PROCESSING APPARATUS, DEPOSITION METHOD, AND ELECTRONIC DEVICE MANUFACTURING METHOD - A substrate processing apparatus includes a heating unit which has a plurality of heaters used to heat a substrate in a first process chamber, a temperature line sensor configured to measure temperatures of the substrate heated by the heating unit while the substrate is conveyed from the first process chamber to a second process chamber, a re-heating unit which has a plurality of heaters used to re-heat the substrate in the second process chamber, and an output control unit which controls an output of the re-heat unit based on the measurement results of the temperature measurement units. | 07-01-2010 |
20100196588 | METHOD OF MANUFACTURING A MULTI-LAYER STRUCTURE - A method of manufacturing a multi-layer structure is provided. The method may include forming a waveguide on a substrate; forming a light coupling arrangement in the waveguide, wherein the light coupling arrangement is substantially non-wavelength selective; forming at least one light source above the waveguide; and forming at least one photo detector above the waveguide. The at least one light source, the at least one photo detector and the waveguide comprise organic material. The waveguide, the light coupling arrangement, the at least one light source and the at least one photo detector are monolithically integrated. | 08-05-2010 |
20100196589 | Room temperature stable agarose solutions - Room temperature stable, non-gelling polysaccharide solutions such as agaroses, dextrans and cyclodextrans are made by the present invention. It has been found that by incorporating certain gel-inhibiting additives into an aqueous polysaccharide solution, the gel point is reduced or eliminated and the solution remains liquid at room temperature indefinitely. Additives that have been found to work include salts, such as lithium chloride and zinc chloride and bases, such as sodium hydroxide and lithium hydroxide. Mixtures of said salts and said bases can also be used with the same desired results. The composition of these solutions of the present idea can be further modified to include other additives, such as organic co-solvents or non-solvents, pH modifiers, surfactants or other polymers to customize the properties of the solution to improve the processability for the desired application and to form structures such as films, beads and coated porous substrates. | 08-05-2010 |
20100196590 | INK JET HEAD AND INK JET PRINTING APPARATUS HAVING THE HEAD - An ink jet head has a head substrate including discharge elements for discharging ink, with an electric wiring board being electrically connected to the head substrate, in which the periphery of the head substrate is sealed with a first sealant, and an electric splice between the head substrate and the electric wiring board is sealed with a second sealant. The first and second sealants contain the same base resin and curing agent, and the second sealant shows higher hardness than the first sealant after curing. This ink jet head is free from problems such as cavities and fissures at the boundary of the two sealants caused by a difference in linear expansion coefficients. | 08-05-2010 |
20100203232 | METHOD OF MANUFACTURING COATED NEEDLE ELECTRODES - A method of manufacturing a coated needle electrode comprising the steps 5 of holding an uncoated sharpened needle by the tip, dipping the uncoated sharpened needle into a bath of coating material, and withdrawing the sharpened needle from the bath of coating material. In this way, the coating can be applied after the needle has been sharpened thereby allowing more precision during the sharpening process. The invention also provides an apparatus for use with the method. | 08-12-2010 |
20100203233 | CRYSTALLISATION METHOD WITH CONTROL OF THE ORIENTATION OF THE CRYSTAL GRAINS - A crystalline layer ( | 08-12-2010 |
20100203234 | SHAPE MEMORY ALLOY ACTUATORS - A shape memory alloy (SMA) actuator includes a groove formed in a surface of a shape memory alloy (SMA) substrate establishing a trace pattern for a layer of conductive material formed over an electrically insulative layer. The trace pattern includes a first end, a second end, and a heating element disposed between the first and second ends. The SMA substrate is trained to deform at a transition temperature achieved when electricity is conducted through the conductive material via first and second interconnect pads terminating the first and second ends of the trace pattern. | 08-12-2010 |
20100215836 | FERROELECTRIC MATERIAL AND METHOD OF FORMING FERROELECTRIC LAYER USING THE SAME - Disclosed herein are a ferroelectric material that can be effectively used in manufacturing various electric and electronic elements, and a method of forming a ferroelectric layer using the ferroelectric material. The ferroelectric material in accordance with the present invention is composed of a mixture of an inorganic ferroelectric material and an organic ferroelectric material. The method of forming a ferroelectric layer includes: preparing a mixed solution of an inorganic ferroelectric material and an organic material; forming a ferroelectric film by applying the mixed solution onto a substrate; and forming a ferroelectric layer by annealing the ferroelectric film. | 08-26-2010 |
20100215837 | PROCESS FOR MAKING AN ELECTRODE, AN ELECTRODE AND A BATTERY COMPRISING THE ELECTRODE - The invention provides a process for making an electrode for a lead acid battery in which a continuous metal support ( | 08-26-2010 |
20100221410 | PROCESS FOR COATING FLUOROELASTOMER FUSER MEMBER USING FLUORINATED SURFACTANT - A process for producing a fuser member coating including a) adding and reacting a fluoroelastomer, a crosslinking agent, a polar solvent, and a fluorinated copolymer surfactant to form a coating solution, and b) providing said coating solution on said fuser member to form a fuser member coating, wherein said fluorinated copolymer surfactant comprises a fluorinated acrylate copolymer having pendant fluorinated alkyl groups. | 09-02-2010 |
20100233355 | Method of fabricating one-dimensional nanostructure of organo-optoelectronic material - An organo-optoelectronic nanowire is fabricated. It is made through a one-step unit operation under a low temperature. An organo-optoelectronic template is obtained for the fabrication, whose idea is a bio-inspired one. The nanowire obtained has a high efficiency and a high surface area; and, heat generated on operation is easily emitted. Thus, the present invention has a great potential for future use on optoelectronic devices. | 09-16-2010 |
20100233356 | Preparation of Prussian Blue Coating Film for Electrochromic Device - The present invention relates to a method for preparing a Prussian blue coating film for an electrochromic device, more particularly to a method for preparing a Prussian blue coating film for an electrochromic device comprising an electrochromic layer coated on a light transmitting substrate including a coating of a transparent electrode, an ion storage layer coated on another light transmitting substrate including a coating of a transparent electrode and an electrolyte layer formed between the electrochromic layer and the ion storage layer, wherein the ion storage layer is formed with a specific nano-dispersed composition comprising Prussian blue by wet coating, thereby providing comparable or better physical properties, including light transmittance, response time, durability, etc., when compared with the conventional electrochemical techniques, simplifying the manufacturing processes and significantly improving the productivity. With improved economic advantages, the present invention enables the realization of large-sized electrochromic devices. | 09-16-2010 |
20100233357 | Coated Display Pieces And Method Of Producing Same - Display pieces for electronic and mechanical displays are coated with a coating material coating. The coating helps to reduce or prevent breakage or shattering and/or to improve light transmission. Methods of making the coated display pieces are also described. | 09-16-2010 |
20100239744 | PROCESS FOR PRODUCING POROUS FILM - A process for producing a porous film containing a liquid crystal polyester comprising the following steps (a), (b) and (c) in this order: (a) dispersing 1 to 1,500 parts by weight of a filler, based on 100 parts by weight of a liquid crystal polyester, in a solution in which 100 parts by weight of the liquid crystal polyester is dissolved in a solvent to produce a slurry coating liquid; (b) coating the coating liquid on at least one side of a substrate to form a coating film; and (c) removing the solvent from the coating film, immersing the film in a solvent which does not dissolve the liquid crystal polyester, and drying the film to form a porous film containing a liquid crystal polyester. | 09-23-2010 |
20100247746 | Method and Apparatus for Multi-Stream Metered Extrusion - An extrusion apparatus for extruding multiple streams of extrusion material as extruded end-products and in the coating of substrates. A flow joiner in an extrusion head combines multiple metered streams such as from a gear pump, into a uniform extrusion flow. | 09-30-2010 |
20100255183 | ELECTROCHROMIC DEVICE BASED ON LAYER BY LAYER DEPOSITION - An electrode is described. The electrode includes a substrate having a first and a second surface, a conductive layer, multilayer structure having alternating layers of at least one polymer layer and at least one electroactive chemical bound nanoparticle layer. The conductive layer is disposed on the second surface of the substrate, and the multilayer structure is disposed on the conductive layer. | 10-07-2010 |
20100285208 | ION SENSOR, ION SENSOR MODULE, AND ION SENSOR MANUFACTURING METHOD - An ion sensor includes a sensor main body having a channel for a sample and an opening connected to the channel, a responsive portion which is filled in the opening and selectively responds to a specific ion, an electrode which has a ring shape, is set such that a central axis of the ring is substantially perpendicular to a central axis of the channel, and senses the response, and an output terminal which is formed out of one metal plate out of which the electrode is formed, has a pin shape, and is held by the sensor main body such that an axis extends along a direction substantially perpendicular to the central axis of the channel and the central axis of the ring. | 11-11-2010 |
20100291288 | ELECTRICALLY CONDUCTIVE FOAM AND APPLICATION METHOD FOR SAME - A kind of electrically conductive foam for preventing an electronic component from electromagnetic interference includes the following compositions: electrically conductive material accounting for about 5% to about 10% by weight; plastic material accounting for about 10% to about 16% by weight; propellant accounting for about 65% to about 75% by weight; surfactant accounting for about 0.5% to about 4% by weight; and auxiliary material accounting for about 4% to about 5% by weight. | 11-18-2010 |
20100304013 | Touch Panel Manufacturing Method - In a touch panel manufacturing method, a substrate is prepared, a sensing layer and a protective layer are sequentially formed on the substrate, an electrode layer with spaced electrodes is formed by firing, and the electrode layer is penetrated through the protective layer and formed on a surface of the sensing layer. Since the sensing layer is covered by the protective layer before forming the electrode layer, the sensing layer can be avoided to be influenced by accompanying heat, chemical substances and/or oxygen gas, its intrinsic physical characteristics are retained and its periphery would not be damaged. Moreover, since the formation of the protective layer is prior to the electrode layer, the height difference formed at the periphery of the electrode layer and the optical interference phenomena both are prevented. Finally, the manufacturing process is simplified and thus production speed and production capacity are increased. | 12-02-2010 |
20100304014 | METHOD OF AFTERTREATMENT OF AMORPHOUS HYDROCARBON FILM AND METHOD FOR MANUFACTURING ELECTRONIC DEVICE BY USING THE AFTERTREATMENT METHOD - Functional groups on the outermost surface of an amorphous hydrocarbon film are substituted. The amorphous hydrocarbon film is formed on a silicon substrate Sub, which is coated with a low-k film. A heat treatment is performed on the amorphous hydrocarbon film in a non-silane gas atmosphere. Next, a heat treatment is performed on the amorphous hydrocarbon film in a silane gas atmosphere immediately after the heat treatment in a non-silane gas atmosphere. After the heat treatment, a film, such as a hard mask, is formed. | 12-02-2010 |
20100310758 | METHOD FOR PRODUCING AT LEAST ONE MICROCOMPONENT WITH A SINGLE MASK - The microcomponent, for example a microbattery, comprising a stack with at least two superposed layers on a substrate, is made using a single steel mask able to expand under the effect of temperature. The mask comprises at least one off-centered opening. The mask being at a first temperature, a first layer is deposited through the opening of the mask. The mask being at a second temperature, higher than the first temperature, a second layer is deposited through the opening of the mask. Finally, the mask being at a third temperature, higher than the second temperature, a third layer is deposited through the opening of the mask. | 12-09-2010 |
20100323096 | Methods Of Utlizing Block Copolymer To Form Patterns - Some embodiments include methods of forming patterns utilizing copolymer. A main body of copolymer may be formed across a substrate, and self-assembly of the copolymer may be induced to form a pattern of structures across the substrate. A uniform thickness throughout the main body of the copolymer may be maintained during the inducement of the self-assembly. In some embodiments, the uniform thickness may be maintained through utilization of a wall surrounding the main body of copolymer to impede dispersal of the copolymer from the main body. In some embodiments, the uniform thickness may be maintained through utilization of a volume of copolymer in fluid communication with the main body of copolymer. | 12-23-2010 |
20100323097 | DIELECTRIC DEVICE AND METHOD OF MANUFACTURING THE SAME - A dielectric device has a first conductor and a dielectric disposed thereon. An intermediate region is formed between the first conductor and dielectric. In the intermediate region, an additive different from the first conductor and dielectric and the dielectric are mixed with each other. The additive contains at least one element of Si, Al, P, Mg, Mn, Y, V, Mo, Co, Nb, Fe, and Cr. | 12-23-2010 |
20110003069 | Fabrication method of nanomaterials by using polymeric nanoporous templates - A fabrication method of a nanomaterial by using a polymeric nanoporous template is disclosed. First, a block copolymer bulk is made from a block copolymer polymerized from decomposable and undecomposable monomers. By removing the decomposable portion of the block copolymer bulk, the polymeric nanoporous template with a plurality of holes is obtained, and these holes have nanostructures with regular arrangement. By exploiting a nanoreactor concept, a sol-gel process or an electrochemical synthesis, for example, is then carried out within the template such that the holes are filled with various filler materials, such as ceramics, metals and polymers, so as to prepare a nanocomposite material having the nanostructure. After removing the polymeric nanoporous template, the nanomaterial with the nanostructure is manufactured. | 01-06-2011 |
20110003070 | VIOLOGEN-BASED ELECTROCHROMIC COMPOSITIONS WHICH CAN BE FORMULATED AND APPLIED AT ROOM TEMPERATURE - The invention relates to electrochromic compositions comprising:
| 01-06-2011 |
20110003071 | CATALYST INK COMPRISING AN IONIC LIQUID AND ITS USE IN THE PRODUCTION OF ELECTRODES, CCMS, GDES AND MEAS - The present invention relates to a catalyst ink comprising at least one catalytically active material and at least one ionic liquid, a process for producing this catalyst ink, a process for producing a membrane-electrode assembly (MEA) comprising at least one membrane and at least one electrode by applying this catalyst ink to a membrane or by applying this catalyst ink to any gas diffusion layer present, the use of this catalyst ink in the production of a membrane-electrode assembly (MEA), a catalyst coated membrane (CCM) or a gas diffusion electrode (GDE) and the use of an ionic liquid for producing a catalyst ink. | 01-06-2011 |
20110014356 | Method for protecting a substrate from lightning strikes - A method for protecting a substrate from lightning strikes is provided including providing a lightning strike protectant composition to the substrate. The lightning strike protectant composition comprises a reactive organic compound and a conductive filler that, during the cure of the organic compound, is capable of self-assembling into a heterogeneous structure comprised of a continuous, three-dimensional network of metal situated among (continuous or semi-continuous) polymer rich domains. The resulting composition has exceptionally high thermal and electrical conductivity. | 01-20-2011 |
20110020534 | BATTERY ELECTRODE MAKING METHOD - A manufacturing method of a battery electrode includes the following steps: providing a reducing reagent, a conductive adjuvant, and a solution comprising ferric ion, wherein the conductive adjuvant is selected from the group consisting of a metallic salt, a metal particle, a metal compound and a carbon conductive substance; applying the conductive adjuvant into the solution comprising ferric ion to form a first mixture solution, followed by mixing the first mixture solution with the reducing reagent to form a second mixture solution, wherein the conductive adjuvant and the ferric ion are reduced by the reducing reagent to form a composite micro-particle comprising iron micro-particle; isolating the composite micro-particle from the second mixture solution; providing an adhesive reagent and mixing with the composite micro-particle to form a coating reagent; and applying the coating reagent onto a metal mesh to produce the battery electrode. | 01-27-2011 |
20110039018 | Ultra Low-Emissivity (Ultra Low E) Silver Coating - A silver conductive coating possessing infrared absorbing properties is disclosed. The coating is made from a blend of one or more micron size silver powders and/or flakes together with carbon black, inorganic pigment, glass frit, and powdered selenium or bismuth metal. The foregoing dry ingredients are pasted with an organic vehicle, applied to a substrate, and fired at a temperature of up to 1400° F. The coating absorbs infrared radiation beyond the decomposition of carbon black, thus allowing higher firing temperatures and hence shorter firing times. | 02-17-2011 |
20110045168 | ORGANIC/INORGANIC COMPOSITE POROUS MEMBRANE AND ELECTROCHEMICAL DEVICE USING THE SAME - The present invention provides an organic/inorganic composite porous separator, which comprises: (a) a porous substrate having pores; and (b) an organic/inorganic composite layer formed by coating at least one region selected from the group consisting of a surface of the substrate and a part of pores present in the substrate with a mixture of inorganic porous particles and a binder polymer, wherein the inorganic porous particles have a plurality of macropores with a diameter of 50 nm or greater in the particle itself thereby form a pore structure, a manufacturing method thereof, and an electrochemical device using the same. As an additional pathway for lithium ions is created due to a number of pores existing in the inorganic porous particle itself, degradation in the battery performance can be minimized, and energy density per unit weight can be increased by the weight loss effect. | 02-24-2011 |
20110052794 | VAPOR-PHASE GROWTH APPARATUS AND THIN-FILM VAPOR-PHASE GROWTH METHOD - A method for vapor-phase growth of a thin film by introducing into a reaction chamber a raw material gas wherein a dilute impurity gas, having a mixture of impurity gas of which the flow-rate is controlled by a first flow-rate controlling mechanism and diluting gas of which the flow-rate is controlled by a second flow-rate controlling mechanism, of which mixture the flow-rate is controlled by a third flow-rate controlling mechanism is mixed with a main gas of which the flow-rate is controlled by a fourth flow-rate controlling mechanism, and vapor-phase growth is carried out by supplying the raw material gas to the reaction chamber while changing continuously and simultaneously with arithmetic control the flow-rates of the gases flowing through said first, second and third flow-rate controlling mechanisms so that the resistivity distribution is controlled and a required resistivity profile is achieved in the thickness direction of the thin film. | 03-03-2011 |
20110064869 | Coated Capillary Electrophoresis Tubes and System - The invention is directed to a capillary tube for electrophoresis that has a positively charged coating on the capillary inner surface that prevents positively charged analytes from adsorbing to the inner capillary surface. The capillary tube has an inner surface that is coated with a first polymer layer having a plurality of polymer groups comprising polyethylene imine, designated herein as (CH | 03-17-2011 |
20110086164 | APPARATUS AND METHOD FOR SOLUTION COATING THIN LAYERS - An apparatus and method for solution coating layers onto a substrate of an electronic device. A slot die coater in conjunction with a vacuum assist device is used in priming, coating and cleaning stations to produce thin layers having performance advantages over competing technologies. | 04-14-2011 |
20110097477 | Methods and Apparatus Configurations for Affecting Movement of Fluids Within a Microelectronic Topography Processing Chamber and a Method for Passivating Hardware Within a Microelectronic Topography Processing Chamber - An apparatus for processing microelectronic topographies, a method of use of such an apparatus, and a method for passivating hardware of microelectronic processing chambers are provided. The apparatus includes a substrate holder configured to support a microelectronic topography and a rotatable case with sidewalls arranged on opposing sides of the substrate holder. The method of using such an apparatus includes positioning a microelectronic topography upon a substrate holder of a processing chamber, exposing the microelectronic topography to a fluid within the processing chamber, and rotating a case of the processing chamber. The rotation is sufficient to affect movement of the fluid relative to the surface of the microelectronic topography. A method for passivating hardware of a microelectronic processing chamber includes exposing the hardware to an organic compound and subsequently exposing the hardware to an agent configured to form polar bonds with the organic compound. | 04-28-2011 |
20110104364 | High-Speed Pultrusion Process for the Manufacture of Fiber Reinforced Composites - The pultrusjon process for making the composite cere of an aluminum conductor composite core (ACCC) cable is improved by replacing the traditional wet-out step of dipping the fiber in a bath of liquid rcsm with a high-pressure spray wet-out step In a preferred process, the fiber is spread out into its constituent filaments, and the resin is sprayed onto the spread-out filaments using a high-pressuic spray nozzle. The sprayed filaments arc then rebundled by passing them through a series of pre-form plates before the rebundled fiber is passed through a die for firsdl shaping and cure | 05-05-2011 |
20110129594 | THIN-FILM BATTERY METHODS FOR COMPLEXITY REDUCTION - Thin-film battery methods for complexity reduction are described. Processing equipment arrangements suitable to support thin-film battery methods for complexity reduction are also described. Cluster tools to support thin-film battery methods for complexity reduction are also described. | 06-02-2011 |
20110129595 | Deposition source, deposition apparatus having the same, and method of forming thin film - A deposition source includes a first deposition source section, the first deposition source section being configured to store a deposition material, a second deposition source section, the second deposition source section being separate from the first deposition source section and being configured to store the deposition material, the first and second deposition source sections being configured to alternately supply the deposition material while heating or cooling the deposition material, a feed section configured to receive evaporated deposition material from the first and second deposition source sections, and a nozzle section configured to receive the deposition material from the feed section. | 06-02-2011 |
20110135808 | ULTRA LOW MELT METAL NANOPARTICLE COMPOSITION FOR THICK-FILM APPLICATIONS - A method of forming conductive features on a substrate, the method includes reacting a metal compound with a reducing agent in the presence of a stabilizer in a reaction mixture comprising the metal compound, the reducing agent, and the stabilizer, wherein the reaction mixture is substantially free of solvent, to form a plurality of metal nanoparticles with molecules of the stabilizer on the surface of the metal nanoparticles. After isolating the plurality of metal nanoparticles, a liquid composition that includes a polymeric binder, a liquid and the plurality of metal nanoparticles with molecules of the stabilizer on the surface of the metal nanoparticles is deposited on a substrate by a liquid deposition technique to form a deposited composition. The deposited composition is then heated to form conductive features on the substrate. | 06-09-2011 |
20110143019 | Apparatus for Deposition on Two Sides of the Web - Apparatuses and methods for depositing materials on both side of a web while it passes a substantially vertical direction are provided. In particular embodiments, a web does not contact any hardware components during the deposition. A web may be supported before and after the deposition chamber but not inside the deposition chamber. At such support points, the web may be exposed to different conditions (e.g., temperature) than during the deposition. | 06-16-2011 |
20110151110 | METAL NANOPARTICLE INK COMPOSITIONS - Nanoparticle inks which do not require further processing steps after application to a substrate in order to form a conductive or decorative pattern are described. The nanoparticle inks contain metal nanoparticles, one or more humectants, a dispersant and a solvent. Methods for forming the nanoparticle inks include a low energy mixing step and a high energy mixing step in order to form nanoparticle inks with the desired properties. Also described are cartridges comprising the nanoparticle inks which can be installed in standard printers. | 06-23-2011 |
20110165319 | APPARATUS FOR FORMING SOLDER DAM AND METHOD OF FORMING SOLDER DAM - An apparatus for forming a solder dam on a lead of an electronic component is disclosed. The apparatus for forming a solder dam includes a wire material that transfers an ink that prevents adhesion of a solder to the lead; a wire material conveying device that conveys the wire material along a surface of the lead; and an ink supply device that supplies the ink to the wire material. | 07-07-2011 |
20110177233 | APPARATUS FOR PROVIDING MATERIAL ON A DEPOSITION SURFACE - The invention relates to an apparatus ( | 07-21-2011 |
20110177234 | Method to Fabricate High Performance Tubular Solid Oxide Fuel Cells - In accordance with the present disclosure, a method for fabricating a solid oxide fuel cell is described. The method includes forming an asymmetric porous ceramic tube by using a phase inversion process. The method further includes forming an asymmetric porous ceramic layer on a surface of the asymmetric porous ceramic tube by using a phase inversion process. The tube is co-sintered to form a structure having a first porous layer, a second porous layer, and a dense layer positioned therebetween. | 07-21-2011 |
20110189381 | Anti-Corrosion Conformal Coating for Metal Conductors Electrically Connecting an Electronic Component - An apparatus includes an electronic component mounted on a substrate and metal conductors electrically connecting the electronic component. A conformal coating overlies the metal conductors and comprises a polymer into which a phosphine compound is impregnated and/or covalently bonded. Accordingly, the conformal coating is able to protect the metal conductors from corrosion caused by sulfur components (e.g., elemental sulfur, hydrogen sulfide, and/or sulfur oxides) in the air. That is, the phosphine compound in the polymer reacts with any corrosion inducing sulfur component in the air and prevents the sulfur component from reacting with the underlying metal conductors. Preferably, the phosphine compound in the polymer does not react with other components in the air (e.g., carbon dioxide) which would otherwise deplete its availability for the target reaction. The phosphine compound may be rendered completely non-volatile by covalently bonding it directly into the polymer backbone. | 08-04-2011 |
20110189382 | METHOD OF PREPARING FLUORINATED HYBRID COMPOSITIONS - Described is a method for preparing a coating composition comprising a fluorine and silicon containing polymer, with a reactive diluent, and optionally non-reactive oligomeric additives, crosslinkers, or inorganic particles, which upon curing provides coatings with a good balance of adhesion, mechanical properties, scratch resistance, low surface energy, repellency, and transparency. The coatings are useful as a topcoat, particularly in optical applications. | 08-04-2011 |
20110189383 | Device and Method for Inert Gas Cure for Leadframe or Substrate Strips - A cover for use in a cure oven, wherein the cover is configured to enclose an inner volume of a storage cassette air-tightly. The storage cassette is of the kind to store a plurality of leadframe or substrate strips having a die overcoat to be cured. The cover comprises a first opening for supplying an inert gas to the storage cassette and a second opening for letting the inert gas off. A box for use in a cure oven, the box including a storage cassette configured to store a plurality of leadframe or substrate strips having a die overcoat to be cured and a cover to enclose the plurality of leadframe or substrate strips in the storage cassette air-tightly. A first opening is provided for supplying an inert gas to the storage cassette and a second opening is provided for letting the inert gas off. A method of curing a die over coat on a leadframe or substrate, including arranging a plurality of leadframe or substrate strips having a die overcoat to be cured in a storage cassette and enclosing the leadframe or substrate strips in the storage cassette air-tightly in a box which has a first and a second opening. The box is placed in a cure oven and by the first opening an inert gas is supplied into the box for preventing oxidation of the leadframe or substrate strips. The cure oven is heated to cure the die overcoat. | 08-04-2011 |
20110195176 | Method of Manufacturing a Display - A method for the manufacture of an organic light-emissive display comprises: providing a substrate comprising a first electrode layer and a bank structure defining a plurality of wells; depositing a conductive organic layer over the first electrode; depositing an organic light-emissive layer over the conductive organic layer; and depositing a second electrode over the organic light-emissive layer, wherein the conductive organic layer is deposited by ink jet printing a composition comprising poly(ethylene dioxythiophene) (PEDOT) doped with a polyanion, wherein the polyanion has a molecular weight of equal to or less than 30 kDa measured relative to polystyrene molecular weight standards using gel-permeation chromatography, the viscosity of the composition being equal to or less than 10 mPa·s, and the solids content of the composition being equal to or less than 5 wt % based on the volume of the composition. The composition may include an optional solvent or other additive. | 08-11-2011 |
20110200740 | METHOD OF PREPARATION OF A MWCNT/ POLYMER COMPOSITE HAVING ELECTROMAGNETIC INTERFERENCE SHIELDING EFFECTIVENESS - A method of preparing carbon nanotube/polymer composite having electromagnetic interference (EMI) shielding effectiveness is disclosed, which includes: dispersing multi-walled carbon nanotubes (MWCNT) in an organic solvent such as N,N-Dimethylacetamide (DMAc); dissolving monomers such as methyl methacrylate (MMA) and an initiator such as 2,2-azobisisobutyronitrile (AIBN) in the MWCNT dispersion; and polymerizing the monomers in the resulting mixture at an elevated temperature such as 120° C. to form a MWCNT/PMMA composite. The composite is coated onto a PET film, and the coated PET film alone or a stack of multiple coated PET films can be applied as an EMI shielding material. | 08-18-2011 |
20110206831 | TRANSPARENT INORGANIC-ORGANIC HYBRID MATERIALS VIA AQUEOUS SOL-GEL PROCESSING - A sol to form an inorganic-organic hybrid coating having a thick highly transparent hard coating is described. The hybrid coating is formed from a combined aqueous sol with least one hydrolyzable silane and at least one hydrolyzable metal oxide precursor where the only organic solvents present are those liberated upon hydrolysis of the silanes and metal oxide precursors. In one embodiment an inorganic-organic hybrid coating is formed by combination of a sol, prepared by the hydrolysis of tetraethoxysilane and γ-glycidoxypropyltrimethoxysilane with an excess of water, and a sol, prepared by the hydrolysis of titanium tetrabutoxide and γ-glycidoxypropyltrimethoxysilane with a deficiency of water. A plastic substrate can be coated with the combined sol and the combined sol gelled to a thickness of at least 5 μm with heating to less than 150° C. | 08-25-2011 |
20110206832 | METHOD FOR EJECTING DROPLET OF ALIGNMENT MATERIAL AND DEVICE FOR THE SAME - Droplet ejection method and device capable of preventing a line defect, which results from a defective nozzle that ejects an inappropriate amount of droplet and is included in nozzles of an ink-jet head, from developing to appear as a visible defect in image display of a liquid crystal display panel. When adjacent streams of droplets of alignment material that are formed by movements in a Y-direction of the ink-jet head join together to form an alignment film on a substrate, a shift amount in an X-direction of the ink-jet head is set such that the adjacent streams are formed by the different nozzles. Thus, the streams of the droplets ejected from the defective nozzle can be prevented from being formed adjacent to each other, and portions of the alignment film that have thicknesses smaller than the other portions, which result in line defects, do not gather together but are dispersed. | 08-25-2011 |
20110212257 | METHOD TO DECREASE WARPAGE OF A MULTI-LAYER SUBSTRATE AND STRUCTURE THEREOF - Disclosed is a method to improve heat dissipation efficiency and to decrease warpage of a multi-layer substrate, comprising a plurality of metal layers and a plurality of dielectric layers, which are alternately formed. A plane parallel with a first metal layer and a second metal layer, substantially has the same distance between the first metal layer and the second metal layer respectively. The plane is defined as a central plane between the first metal layer and the second metal layer. A first total area covered by metal in the first metal layer is larger than a second area covered by metal in the second metal layer. At least one redundant metal is set in same layer of the second metal layer to make a second total area comprising a redundant metal area covered by the redundant metal and the second area considerably equivalent to the first total area. | 09-01-2011 |
20110217451 | Large-area transparent conductive coatings including doped carbon nanotubes and nanowire composites, and methods of making the same - Certain example embodiments of this invention relate to large-area transparent conductive coatings (TCCs) including carbon nanotubes (CNTs) and nanowire composites, and methods of making the same. The σ | 09-08-2011 |
20110217452 | OPTICAL FILM, POLARIZING PLATE, IMAGE DISPLAY, AND MANUFACTURING METHOD OF OPTICAL FILM - An optical film is provided and includes: a support; a hard coat layer formed by hardening a hard coat layer-coating composition; and a overcoat layer formed by hardening an overcoat layer-coating composition, in this order. Each of the hard coat layer-coating composition and the overcoat layer-coating composition contains a compound having a plurality of polymerizable functional groups in one molecule, and the compound in the overcoat layer-coating composition contains a compound having at least three polymerizable functional groups. | 09-08-2011 |
20110223318 | METHOD FOR INTRODUCING FUNCTIONAL GROUP TO SURFACE OF MATERIAL - The present invention relates to a method for introducing a functional group to the surface of a material. The present invention provides a method for introducing a mixture of a lipid and a compound containing a functional group to the surface of a material. The method, for example, comprises the steps of: mixing a lipid with a compound containing a functional group to form liposome; and introducing the liposome to the surface of a material. The method enables a simple process and the reduction of processing time, compared with conventional chemical surface treatment methods. Additionally, the method ensures high efficiency and reproducibility when fixing a receptor on the surface of a material. Furthermore, the method does not need to use various reagents and is simple, so people unfamiliar with chemistry can utilize the method easily. | 09-15-2011 |
20110229629 | METHOD FOR PRODUCING LIQUID CRYSTALLINE POLYESTER IMPREGNATED FIBER SHEET - A method for producing a liquid crystalline polyester impregnated fiber sheet, comprising a step of impregnating a fiber sheet composed of an aramid fiber or a polybenzazole fiber with a liquid composition containing a liquid crystalline polyester and an aprotic solvent free of a halogen atom and a step of removing the solvent from the fiber sheet impregnated with the liquid composition. As the above mentioned solvent, N,N-dimethylformamide, N,N-dimethylacetamide and N-methylpyrrolidone are preferably used. As the above mentioned sheet, textiles are preferably used. | 09-22-2011 |
20110236563 | METHOD FOR PRODUCING A PROTON-CONDUCTING MEMBRANE - The invention relates to a method for the production of a proton-conducting polymer membrane on the basis of polyazoles, comprising the steps of A) convening one or more aromatic tetra-amino compounds having one or more aromatic carboxylic acids, which contain at least two acid groups per carboxylic acid monomer, to form a salt comprising diammonium cations and carboxylate anions, B) mixing the salt from step A) with polyphosporic acid to form a solution and/or dispersion. C) applying a layer using the mixture according to step B) onto a carrier. D) heating the planar formation/layer obtained according to step C) to temperatures of up to 350° C., preferably up to 280° C., to form the polyazole polymers. E) treating the membrane formed in step D) in the presence of moisture at temperatures and for a duration sufficient until it is self-supporting. | 09-29-2011 |
20110244116 | SELECTIVE NANOPARTICLE ASSEMBLY SYSTEMS AND METHODS - Disclosed are methods and systems for transferring dry or semi-dry nanoparticles onto a substrate. In one embodiment, this includes the steps of providing a roller comprising an elastomeric stamp; transferring nanoparticles in a dry or semi-dry state, and which contact the surface of a donor substrate, from the donor substrate onto the elastomeric stamp; and depositing the dry or semi-dry nanoparticles from the elastomeric stamp onto a receiver substrate by rolling the elastomeric stamp onto the receiver substrate. The substrate, in other embodiments, can have a relief structure. | 10-06-2011 |
20110256306 | METHOD FOR MANUFACTURING ELECTROPHORETIC DISPLAY APPARATUS - The following is included: loading cells spatially defined by partitions with a dispersion liquid containing electrophoretically mobile particles and a dispersion medium for dispersing the electrophoretically mobile particles, and covering the exposed surface of the dispersion liquid loaded in the cells with a sealing coating to seal the dispersion liquid in the cells. The dispersion medium is a lipophilic hydrocarbon solvent, and the sealing coating is made from a material containing a water-soluble polymer. | 10-20-2011 |
20110262623 | COATER/DEVELOPER, METHOD OF COATING AND DEVELOPING RESIST FILM, AND COMPUTER READABLE STORING MEDIUM - A transfer flow is produced in accordance with a process recipe of a process to be carried out. In the transfer flow, a type of modules listed in accordance with a substrate transfer order is associated with a necessary staying time from when the substrate is transferred into a module by a substrate transfer unit to when the substrate is ready to be transferred back to the substrate transfer unit after the corresponding process is finished. A cycle limiting time is determined to be the longest necessary transfer cycle time among those obtained by dividing the necessary staying time by the number of the modules mounted in the coater/developer. The number of the modules to be used is determined to be a value obtained by dividing the necessary staying time by the cycle limiting time or a nearest integer to which the value is raised. | 10-27-2011 |
20110274828 | ELECTRODE MANUFACTURING APPARATUS AND ELECTRODE MANUFACTURING METHOD - An electrode manufacturing apparatus ( | 11-10-2011 |
20110281023 | SELF-ALIGNED BEVELS FOR WRITE POLES - A method of depositing material onto a base portion of a wafer is disclosed. The method includes forming a bevel into a portion of a surface of the base portion of the wafer and depositing a first layer of conductive material onto the beveled portion of the base portion so that part of the first layer includes a wedge shape above the surface of the base portion. A second layer of conductive material is deposited onto the base portion including the portion of the base portion onto which the first layer of material is deposited. | 11-17-2011 |
20110305821 | Silver nanoparticle composition comprising solvents with specific hansen solubility parameters - A metal nanoparticle composition includes an organic-stabilized metal nanoparticle and a solvent in which the solvent selected has the following Hansen solubility parameters: a dispersion parameter of about 16 MPa | 12-15-2011 |
20110305822 | METHOD FOR MANUFACTURING ELECTROMECHANICAL TRANSDUCER - This invention includes energizing an electrode in which the surface facing a cavity is exposed as one electrode for electrolytic etching and the other electrode provided at the outside and contacting an electrolytic etching solution to perform electrolytic etching of a sacrificial layer to form a cavity. Thereafter, a removal agent is introduced from an etching hole to reduce residues of the sacrificial layer due to the electrolytic etching. | 12-15-2011 |
20110305823 | FUEL INJECTOR - A fuel injector for fuel injection systems of internal combustion engines includes a solenoid coil; an armature acted upon in a closing direction by a restoring spring; and a valve needle, which is connected to the armature in force-locking manner and on which a valve-closure member is formed, which forms a sealing seat together with a valve seat surface. The armature strikes against a stop face of an inner pole of the solenoid coil by way of a stop face, and the armature stop face is provided with a coating. The coating has a surface structure. | 12-15-2011 |
20110318477 | Apparatus and method for producing a sheet material - Provided is an apparatus for producing a sheet material including: an RFID reader ( | 12-29-2011 |
20120009331 | Method For Manufacturing Cable-Type Secondary Battery - The present invention relates to a method for manufacturing a cable-type secondary battery comprising an electrode that extends longitudinally in a parallel arrangement and that includes a current collector having a horizontal cross section of a predetermined shape and an active material layer formed on the current collector, and the electrode is formed by putting an electrode slurry including an active material, a polymer binder, and a solvent into an extruder, by extrusion-coating the electrode slurry on the current collector while continuously providing the current collector to the extruder, and by drying the current collector coated with the electrode slurry to form an active material layer. | 01-12-2012 |
20120027917 | Silsesquioxane Resins - Silsesquioxane resins useful in antireflective coatings wherein the silsesquioxane resin has the formula: (PhSiO( | 02-02-2012 |
20120027918 | SHOWERHEAD SUPPORT STRUCTURE FOR IMPROVED GAS FLOW - Embodiments of the present invention generally provide apparatus and methods for supporting a gas distribution showerhead in a processing chamber. In one embodiment, a gas distribution showerhead for a vacuum chamber is provided. The gas distribution showerhead comprises a body having a first side and a second side opposite the first side, and a plurality of gas passages formed through the body, the gas passages comprising a first bore formed in the first side that is fluidly coupled to a second bore formed in the second side by a restricting orifice, and a suspension feature formed in the first bore of at least one of the gas passages. | 02-02-2012 |
20120027919 | ELECTRODE FOR LITHIUM SECONDARY BATTERY, LITHIUM SECONDARY BATTERY AND METHOD FOR PRODUCING THE SAME - An electrode for a lithium secondary battery including a sheet-like current collector and an active material layer carried on the current collector. The active material layer is capable of absorbing and desorbing lithium, and the active material layer includes a plurality of columnar particles having at least one bend. An angle θ | 02-02-2012 |
20120034370 | METHOD FOR PRODUCING CHROMOPHORE AND/OR EFFECT-PRODUCING MULTILAYER VARNISHES - A process for producing multicoat paint systems comprising applying to substrates including unprimed substrates, substrates coated with an uncured primer or substrates coated with a cured primer, one first color and/or effect coat, one second color and/or effect coat, and one transparent coat, and jointly curing wet films of these coatings and also where appropriate the uncured primer. | 02-09-2012 |
20120040085 | METHOD FOR FORMING Cu FILM AND STORAGE MEDIUM - In a method for forming a Cu film, a wafer (W) is loaded into a chamber | 02-16-2012 |
20120040086 | POSITIVE ELECTRODE FOR NON-AQUEOUS ELECTROLYTE BATTERY AND METHOD OF MANUFACTURING THE SAME, AND NON-AQUEOUS ELECTROLYTE BATTERY AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a positive electrode for a non-aqueous electrolyte battery includes: applying a positive electrode slurry onto a positive electrode current collector, the positive electrode slurry containing a positive electrode active material, a conductive agent, carboxymethylcellulose, and a latex-based plastic. The method is characterized by including: a first step of dispersing and mixing the carboxymethylcellulose and the conductive agent in an aqueous solution to prepare a conductive agent slurry; and a second step of dispersing and mixing the positive electrode active material and the latex-based plastic in the conductive agent slurry, to prepare the positive electrode slurry. | 02-16-2012 |
20120058252 | ION SOURCE CLEANING IN SEMICONDUCTOR PROCESSING SYSTEMS - Cleaning of an ion implantation system or components thereof, utilizing temperature and/or a reactive cleaning reagent enabling growth/etching of the cathode in an indirectly heated cathode for an ion implantation system by monitoring the cathode bias power and taking corrective action depending upon compared values to etch or regrow the cathode. | 03-08-2012 |
20120058253 | Substrate Processing Apparatus and Substrate Processing Method - Provided is a substrate processing apparatus in which after a module is disabled, a substrate is provided to a carry-in module capable of placing the wafers most rapidly in the plurality of unit blocks and the substrates are sequentially transported to the module group by the transportation means to be delivered to the carry-out module according to a providing sequence of the substrate to the carry-in module in each of the plurality of unit blocks. In particular, the substrates are extracted from the carry-out module according to a providing sequence of the substrate to the carry-in module and transported to a rear module or a substrate placing part. Thereafter, the substrates are transported to the rear module from the carry-out module or the substrate placing part according to a predetermined sequence in which the substrate is provided to the carry-in module in a normal state. | 03-08-2012 |
20120064225 | SPRAY DEPOSITION MODULE FOR AN IN-LINE PROCESSING SYSTEM - In one embodiment, an apparatus for simultaneously depositing an anodically or cathodically active material on opposing sides of a flexible conductive substrate is provided. The apparatus comprises a chamber body defining one or more processing regions in which a flexible conductive substrate is exposed to a dual sided spray deposition process, wherein each of the one or more processing regions are further divided into a first spray deposition region and a second spray deposition region for simultaneously spraying an anodically active or cathodically active material onto opposing sides of a portion of the flexible conductive substrate, wherein each of the first and second spray deposition regions comprise a spray dispenser cartridge for delivering the activated material toward the flexible conductive substrate and a movable collection shutter. | 03-15-2012 |
20120064226 | Cantilever Microprobes For Contacting Electronic Components and Methods for Making Such Probes - Embodiments disclosed herein are directed to compliant probe structures for making temporary or permanent contact with electronic circuits and the like. In particular, embodiments are directed to various designs of cantilever-like probe structures. Some embodiments are directed to methods for fabricating such cantilever structures. In some embodiments, for example, cantilever probes have extended base structures, slide in mounting structures, multi-beam configurations, offset bonding locations to allow closer positioning of adjacent probes, compliant elements with tensional configurations, improved over travel, improved compliance, improved scrubbing capability, and/or the like. | 03-15-2012 |
20120064227 | Cantilever Microprobes For Contacting Electronic Components and Methods for Making Such Probes - Embodiments disclosed herein are directed to compliant probe structures for making temporary or permanent contact with electronic circuits and the like. In particular, embodiments are directed to various designs of cantilever-like probe structures. Some embodiments are directed to methods for fabricating such cantilever structures. In some embodiments, for example, cantilever probes have extended base structures, slide in mounting structures, multi-beam configurations, offset bonding locations to allow closer positioning of adjacent probes, compliant elements with tensional configurations, improved over travel, improved compliance, improved scrubbing capability, and/or the like. | 03-15-2012 |
20120076924 | CHARGING MEMBER, PROCESS CARTRIDGE, AND ELECTROPHOTOGRAPHIC APPARATUS - A charging member is provided having a support, a conductive elastic layer formed on the support and a surface layer formed on the conductive elastic layer. The surface layer contains a polysiloxane having at least one of structures represented by the following formulas (1a1), (1a2), (1b1) and (1b2): | 03-29-2012 |
20120094013 | INTERMEDIATE TRANSFER MEMBER - There is disclosed an intermediate transfer member comprising a belt comprising conductive particles dispersed in a thermoplastic polymer. The thermoplastic polymer is selected from the group consisting of polyimide, polyamideimide, polyetherimide, polycarbonate, polysulfone, polyethersulfone, polyphenylsulfone, polyester, polyphenylsulfide and polyamide. The belt has a welded seam. There is an overcoat disposed over the welded seam comprising a material selected from the group consisting of polyphenylsulfone, polysulfone and polyethersulfone. A method of manufacturing the intermediate transfer member is provided. | 04-19-2012 |
20120100281 | METHOD AND SYSTEM FOR THE CONTROLLED DISPENSING OF MERCURY AND DEVICES MANUFACTURED THROUGH THIS METHOD - A method for a controlled dispensing of mercury by mercury sources that release mercury at a temperature Te, the sources being kept at a conditioning temperature TcTe by means of displacement of the mercury sources. | 04-26-2012 |
20120114841 | METHOD OF MAKING CARBON NANOTUBE COMPOSITE MATERIALS - The present invention is a method of making a composite polymeric material by dissolving a vinyl thermoplastic polymer, un-functionalized carbon nanotubes and hydroxylated carbon nanotubes and optionally additives in a solvent to make a solution and removing at least a portion of the solvent after casting onto a substrate to make thin films. The material has enhanced conductivity properties due to the blending of the un-functionalized and hydroxylated carbon nanotubes. | 05-10-2012 |
20120121795 | HIGH TEMPERATURE MATERIAL COMPOSITIONS FOR HIGH TEMPERATURE THERMAL CUTOFF DEVICES - The present disclosure provides a high-temperature thermal pellet composition that maintains structural rigidity up to a transition temperature of about 240° C. The composition comprises at least one organic compound (e.g., triptycene or 1-aminoanthroquinone). The pellet can be disposed in a housing of a thermally-actuated, current cutoff device, such as a high-temperature thermal cutoff device (HTTCO). Also provided are material systems, which include the pellet composition and a high-temperature seal that provides substantial sealing up to at least the transition temperature. Methods of making such high-temperature pellet compositions and incorporating them into a thermally-actuated, current cutoff device are also provided. | 05-17-2012 |
20120128865 | APPARATUS FOR FORMING ELECTRODE AND METHOD FOR FORMING ELECTRODE USING THE SAME - Disclosed herein is an apparatus for forming an electrode on a surface of a ceramic laminate. The apparatus for forming an electrode includes: a blast surface plate having ruggedness to which an electrode material paste is applied; and a moving device moving a ceramic laminate so that the ceramic laminate contacts the blast surface plate. | 05-24-2012 |
20120128866 | METHOD FOR PRODUCING PLASTIC MOLDED PARTS HAVING AN INTEGRATED CONDUCTIVE TRACK - The invention relates to a method for producing a plastic molded part ( | 05-24-2012 |
20120135134 | 1-HYDROXY-2-O-ACYL-SN-GLYCERO-3-PHOSPHOCHOLINE COMPOUNDS, PREPARATION PROCESS, ANTIFOULING COMPOSITION, PROCESS FOR ITS PREPARATION, METHOD TO PREVENT FOULING, METHOD TO TURN A SURFACE INTO AN ANTIFOULING SURFACE, AND, COVERED SURFACE - 1-OH-2-acyl-sn-glycero-3-phosphocholine compounds and its analogs, pure or mixed, having formula WCH2CHXCH2PO3YCH2CH2Z, where W is preferably a hydroxyl group or an O-acyl group containing from 2 to 22 carbon atoms, and where X is preferably an O-acyl group containing from 2 to 22 carbon atoms or a hydroxyl (OH) and where Y may be an (O | 05-31-2012 |
20120135135 | COATING APPARATUS AND COATING METHOD - In applying a coating liquid including a solute and a solvent onto a given area on a substrate so as to allow the coating liquid to be solidified on the substrate by volatizing the solvent, an atmosphere in a vicinity of a coated area of the substrate is kept under an atmosphere that reduces volatilization of the solvent until applying the coating liquid onto the given area of the substrate is finished. | 05-31-2012 |
20120141661 | SUBSTRATE SUPPORTS FOR SEMICONDUCTOR APPLICATIONS - This invention relates to substrate supports, e.g., coated electrostatic chucks, having a dielectric multilayer formed thereon; dielectric multilayers that provide erosive and corrosive barrier protection in harsh environments such as plasma treating vessels used in semiconductor device manufacture; process chambers, e.g., deposition chambers, for processing substrates; methods for protecting substrate supports; and methods for producing substrate supports and electronic devices. The dielectric multilayer comprises (a) an undercoat dielectric layer comprising a metal oxide or metal nitride formed on a surface; and (b) a topcoat dielectric layer comprising a metal oxide formed on the undercoat dielectric layer. The topcoat dielectric layer has an aluminum oxide content of less than about 1 weight percent. The topcoat dielectric layer has a corrosion resistance and/or plasma erosion resistance greater than the corrosion resistance and/or plasma erosion resistance of the undercoat dielectric layer. The undercoat dielectric layer can have a resistivity greater than the resistivity of the topcoat dielectric layer. The topcoat dielectric layer can have a dielectric constant greater than the dielectric constant of the undercoat dielectric layer. The undercoat dielectric layer can have a porosity greater than the porosity of the topcoat dielectric layer. The invention is useful, for example, in the manufacture and protection of electrostatic chucks used in semiconductor device manufacture. | 06-07-2012 |
20120141662 | CONDUCTOR PATTERN FORMING METHOD - There is provided a method for forming a conductor pattern on a substrate in such a manner that the conductor pattern has a lead portion extending in a longitudinal direction thereof, a first conductor portion located at one end of the lead portion and a second conductor portion located at the other end of the lead portion, including a printing step of printing at least the lead portion by ink-jet printing process, i.e., scanning a print head while discharging liquid ink drops from nozzles of the prink head, wherein the scanning of the print head is performed in the longitudinal direction of the conductor pattern during the printing step; and wherein the length of each of the first and second conductor portions in a direction perpendicular to the longitudinal direction of the conductor pattern is larger than the diameter of the ink drop. | 06-07-2012 |
20120141663 | Quinhydrone-containing Sensor - The application relates to quinhydrone (RN=106-34-3) containing sensors ( | 06-07-2012 |
20120148728 | METHODS AND APPARATUS FOR THE PRODUCTION OF HIGH PURITY SILICON - Methods and apparatus for the production of high purity silicon including a silicon deposition reactor with a gas distribution plate for injecting gas into the silicon deposition reactor. | 06-14-2012 |
20120148729 | METHOD FOR PRODUCING AN ORGANIC NEGATIVE ELECTRODE - A method for producing an organic negative electrode is provided in the present disclosure. The method comprises the steps of: preparing a first element comprising conductive material into a first membrane; preparing a second membrane on the first membrane from a second element formed by a high polymer solution. | 06-14-2012 |
20120148730 | Film Formation Method and Method for Manufacturing Light-Emitting Device - A binder material layer including an evaporation material is formed over a main surface of an evaporation source substrate, a substrate on which a film is formed is placed so that the binder material layer and a main surface thereof face each other, and heat treatment is performed on a rear surface of the evaporation source substrate so that the evaporation material in the binder material layer is heated to be subjected to sublimation or the like, whereby a layer of the evaporation material is formed on the substrate on which a film is formed. When a low molecular material is used for the evaporation material and a high molecular material is used for the binder material, the viscosity can be easily adjusted, and thus, film formation is possible with higher throughput than conventional film formation. | 06-14-2012 |
20120156364 | INTERDIGITATED FINGER COEXTRUSION - A co-extrusion device has at least one first inlet port to receive a first material, at least one second inlet port to receive a second material, a first combining channel arranged to receive the first material and the second material and combine the first and second materials into a first combined flow flowing in a first direction. a splitter channel arranged to receive the first combined flow and to split the first combined flow into at least two split flows in a second direction at least partially orthogonal to the first direction, wherein each split flow consists of the first and second materials, and a second combining channel arranged to receive the split flows and combine the split flows into a second combined flow in the first direction, and at least one exit orifice arranged to allow the materials to exit the device as a single flow. A method for depositing a structure comprising interdigitated materials includes merging flows of at least two materials in a first direction into a first combined flow, dividing the first combined flow in a second direction to produce at least two separate flows, wherein the second direction is perpendicular to the first direction, and merging the two separate flows into a second combined flow. | 06-21-2012 |
20120171358 | METHOD OF PREPARING CONDUCTIVE POLYMER COMPOSITION AND METHOD OF MANUFACTURING CONDUCTIVE FILM USING THE SAME - Disclosed is a method of preparing a conductive polymer composition, in which FTS (Ferric p-toluene sulfonate) is used as a dopant and mixed with a conductive polymer monomer before polymerizing the conductive polymer monomer, thereby facilitating the control of the concentration of the conductive polymer composition and increasing the electrical conductivity of the conductive polymer composition. A method of manufacturing a conductive film is also provided. | 07-05-2012 |
20120183678 | BLACKENED ELECTROMAGNETIC INTERFERENCE SHIELD GLASS AND METHOD OF PRODUCING THE SAME - Method of producing an electromagnetic interference shield glass, which comprises (a) forming a conductive pattern on at least one side of a front side and a rear side of the glass by using a conductive paste comprising a colored glass frit, and (b) firing the conductive pattern to blacken the conductive pattern, and a blackened electromagnetic interference shield glass. | 07-19-2012 |
20120189767 | SELF-ALIGNED NANO-SCALE DEVICE WITH PARALLEL PLATE ELECTRODES - A contiguous deep trench includes a first trench portion having a constant width between a pair of first parallel sidewalls, second and third trench portions each having a greater width than the first trench portion and laterally connected to the first trench portion. A non-conformal deposition process is employed to form a conductive layer that has a tapered geometry within the contiguous deep trench portion such that the conductive layer is not present on bottom surfaces of the contiguous deep trench. A gap fill layer is formed to plug the space in the first trench portion. The conductive layer is patterned into two conductive plates each having a tapered vertical portion within the first trench portion. After removing remaining portions of the gap fill layer, a device is formed that has a small separation distance between the tapered vertical portions of the conductive plates. | 07-26-2012 |
20120196031 | DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - A display device formed by plural pixels that have reflective regions and transmissive regions is disclosed. The display device includes, in each of the pixels: an element layer formed on a substrate; a planarizing layer formed on the substrate to cover the element layer; and a gap adjusting layer formed on the planarizing layer on the element layer. In the display device, the reflective region is formed by an area including the element layer, the planarizing layer, the gap adjusting layer, and a reflection electrode formed on the gap adjusting layer, and the transmissive region is formed by an area including the planarizing layer formed on the substrate excluding an area in which the gap adjusting layer is formed. | 08-02-2012 |
20120207914 | APPARATUS FOR APPLYING ELECTRODE MIXTURE PASTE WITH HOMOGENEOUS DISTRIBUTION OF COATING AMOUNT OF ELECTRODE MIXTURE PASTE - An electrode mixture paste is applied on both sides of a strip of core material as it runs along its lengthwise direction, and the coating thickness of the paste is adjusted as the core material coated with the paste passes through a gap between a pair of scraper tools. Tips provided to the scraper tools scrape off the paste to form a paste-coated portion of a predetermined width. The electrode mixture paste scraped off with the tips is returned through recesses on the upstream side of the tips in the running direction of the core material, so as to prevent the phenomenon where the coating thickness is increased at both side edges of the paste-coated portion. Thus, a method for applying electrode mixture paste is realized that can prevent the phenomenon where the coating thickness is increased at both side edges of the paste-coated portion. | 08-16-2012 |
20120207915 | ARTIFICIAL DIELECTRIC COMPOSITES BY A DIRECT-WRITE METHOD - An artificial dielectric composite having an electrically non-conducting substrate, an electrically non-conducting pattern on the substrate, and an electrically conducting coating on the pattern. The substrate may be a textile such as paper. The electrically non-conducting pattern may comprise palladium. A direct-write device, such as an inkjet printer, may be used to print the pattern onto the substrate. The electrically conducing coating may comprise nickel, gold, palladium, cobalt, iron, copper, or any combination thereof. Also disclosed is the related method of making the artificial dielectric composite. | 08-16-2012 |
20120213914 | Apparatus and Method for Electroless Deposition of Materials on Semiconductor Substrates - An apparatus is provided having a closable chamber that can be sealed and is capable of withstanding an increased pressure and high temperature. The chamber has several inlet ports for the supply of various process liquids, such as deposition solutions, water for rinsing, etc., and a port for the supply of a gas under pressure. The apparatus also includes a solution heater and a control system for controlling temperature and pressure in the chamber. Uniform deposition is achieved by carrying out the deposition process under pressure and under temperature slightly below the boiling point of the solution. The solution can be supplied from above via a shower head formed in the cover, or through the bottom of the chamber. Rinsing or other auxiliary solutions are supplied via a radially moveable chemical dispensing arm that can be arranged above the substrate parallel thereto. | 08-23-2012 |
20120213915 | Process for Producing Heat-Treated Vinylidene Fluoride Polymer Powder and Process for Producing Vinylidene Fluoride Polymer Solution - Provided is a process for producing vinylidene fluoride polymer powder that exhibits excellent solubility with respect to aprotic polar solvents, and a process for producing a vinylidene fluoride polymer solution using vinylidene fluoride polymer powder obtained by the polymer powder production process. The process for producing heat-treated vinylidene fluoride polymer powder includes heat treating raw vinylidene fluoride polymer powder at such a temperature that the temperature of the polymer powder is not less than 125° C. to less than the crystal melting temperature (Tm) of the polymer. | 08-23-2012 |
20120219701 | METHOD FOR FABRICATING TOUCH SENSOR STRUCTURE - A method for fabricating a touch sensor structure is disclosed and has steps of forming a conductive layer on a substrate; forming a patterned bridging photo-resist layer on the conductive layer through a half-tone masking process that the bridging photo-resist layer partially covers the conductive layer and has a first portion and a relatively thinner second portion; removing a portion of the conductive layer which is not covered by the bridging photo-resist layer to pattern the conductive layer; and removing the second portion of the bridging photo-resist layer to form a bridging layer and the patterned conductive layer is partially exposed to be a conductive-wire layer. Hence the present invention reduce one masking process during forming conducting wires and bridge structures and provides better production efficiency. | 08-30-2012 |
20120225191 | Apparatus and Process for Atomic Layer Deposition - Provided are atomic layer deposition apparatus and methods including a gas distribution plate comprising at least one gas injector unit. Each gas injector unit comprises a plurality of elongate gas injectors including at least two first reactive gas injectors and at least one second reactive gas injector, the at least two first reactive gas injectors surrounding the at least one second reactive gas injector. Also provided are atomic layer deposition apparatuses and methods including a gas distribution plate with a plurality of gas injector units. | 09-06-2012 |
20120225192 | Apparatus And Process For Atomic Layer Deposition - Provided are atomic layer deposition apparatus and methods including a gas distribution plate comprising at least one gas injector unit. Each gas injector unit comprises a plurality of elongate gas injectors including at least two first reactive gas injectors and at least one second reactive gas injector, the at least two first reactive gas injectors surrounding the at least one second reactive gas injector. Also provided are atomic layer deposition apparatuses and methods including a gas distribution plate with a plurality of gas injector units. | 09-06-2012 |
20120225193 | Apparatus And Process For Atomic Layer Deposition - Provided is a substrate processing apparatus, such as an atomic layer deposition (ALD) chamber, comprising a substrate support on a swinging support arm and, optionally, a plurality of exhaust ducts located adjacent to but a distance from the gas distribution plate. One or more of the substrate processing apparatus may be a component of an integrated cluster tool to process multiple substrates concurrently. | 09-06-2012 |
20120225194 | Apparatus And Process For Atomic Layer Deposition - Provided are atomic layer deposition apparatus and methods including multiple gas distribution plates including stages for moving substrates between the gas distribution plates. | 09-06-2012 |
20120225195 | Atomic Layer Deposition Carousel With Continuous Rotation And Methods Of Use - Provided are atomic layer deposition apparatus and methods including a rotating wheel with a plurality of substrate carriers for continuous processing of substrates. The processing chamber may have a loading station on the front end which is configured with one or more robots to load and unload substrates from the substrate carriers without needing to stop the rotating wheel. | 09-06-2012 |
20120231152 | METHODS FOR PREPARING A COATING SOLUTION FOR PRODUCING A TRANSPARENT CONDUCTIVE FILM - A method for preparing a coating solution for producing a transparent conductive film includes dissolving a zinc precursor and a metal salt with a solvent to form a first solution containing the zinc precursor and a second solution containing the metal salt. The first solution is mixed with the second solution. At least one stabilizer is added into a mixture of the first and second solutions to form a coating solution precursor. The coating solution precursor is heated and stirred until even dissolution of the zinc precursor and the metal salt. The heated and stirred coating solution precursor is placed steadily in an environment having a temperature lower than a room temperature to undergo crystal growth, obtaining a raw coating solution. The raw coating solution is then filtered to obtain a coating solution. | 09-13-2012 |
20120231153 | HYBRID COMPOSITIONS CONTAINING ORGANIC MATERIAL AND INORGANIC MATERIAL, HYBRID DIELECTRIC LAYERS INCLUDING THE SAME, AND METHODS OF FORMING THE SAME - Hybrid compositions are provided. The hybrid composition includes poly-4-vinylphenol, sodium compound and aluminum compound. A content of the poly-4-vinylphenol to a total weight of the poly-4-vinylphenol, the sodium compound and the aluminum compound is 69 wt % to 99.89 wt %. A content of the sodium compound to a total weight of the poly-4-vinylphenol, the sodium compound and the aluminum compound is 0.01 wt % to 1 wt %. A content of the aluminum compound to a total weight of the poly-4-vinylphenol, the sodium compound and the aluminum compound is 0.1 wt % to 30 wt %. | 09-13-2012 |
20120237668 | SOLID PARTICLES HAVING A SILICATE COATING - A method for producing solid particles having a silica coating, by: dispersing the solid particles to be coated in an aqueous medium to produce a solid particle dispersion, adjusting the pH of the solid particle dispersion by a buffer system to produce a buffered solid particle dispersion, and adding an alkaline silicate solution to the buffered solid particle dispersion to form the silica coating on the solid particles during a coating period. The amounts of buffer system and alkaline silicate solution are selected such that the pH of the buffered solid particle dispersion before the addition of the alkaline silicate solution is at least 7.0 and after completion of the addition of the alkaline silicate solution is at most 11.0. | 09-20-2012 |
20120244274 | DISPENSING METHOD AND APPARATUS - A dispensing method includes feeding a liquid material to one or more ejection parts arranged in a chamber; placing one or more objects on a stage; placing the chamber on the stage and forming a first hermetic space between the chamber and the stage; placing a lid member on the chamber and forming a second hermetic space between the liquid material and the lid member; causing the liquid material to be ejected from the one or more ejection parts onto the one or more objects by reducing a pressure of the first hermetic space; and returning the first hermetic space to atmospheric pressure. | 09-27-2012 |
20120251706 | METHOD OF MANUFACTURING AN ANTI-FINGERPRINT PAINT AND USE OF THE ANTI-FINGERPRINT PAINT - A method of manufacturing the anti-fingerprint paint is described hereinafter. Firstly, blend fluorinated polymer with fluorocarbon solvents to form fluorocarbon polymer paint. Secondly, blend nano-particles with the fluorocarbon solvents, then add the fluorine-couplant into the fluorocarbon solvents with the nano-particles therein, and further mix up the above-mentioned solvents to get a nano-particle solvent. Lastly, blend the fluorocarbon polymer paint with the nano-particle solvents and further mix up the mixture of the fluorocarbon polymer paint and the nano-particle solvents under a room temperature for 12 to 24 hours to form the anti-fingerprint paint. The method of forming the anti-fingerprint coating onto the surface of the substrate is described hereinafter. Firstly, coat the anti-fingerprint paint onto a surface of the substrate. Secondly, heat the anti-fingerprint paint coated on the surface of the substrate to form the anti-fingerprint coating on the surface of the substrate. | 10-04-2012 |
20120251707 | ADHESIVES - The invention provides an adhesive comprising structurally modified, pyrogenically prepared silicas containing on their surface organosilane groups of the formula (I) SiC | 10-04-2012 |
20120251708 | BIOSENSOR, THIN FILM ELECTRODE FORMING METHOD, QUANTIFICATION APPARATUS, AND QUANTIFICATION METHOD - A biosensor is disclosed comprising a support; a conductive layer composed of an electrical conductive material such as a noble metal, for example gold or palladium, and carbon; slits parallel to and perpendicular to the side of the support; working, counter, and detecting electrodes; a spacer which covers the working, counter, and detecting electrodes on the support; a rectangular cutout in the spacer forming a specimen supply path; an inlet to the specimen supply path; a reagent layer formed by applying a reagent containing an enzyme to the working, counter, and detecting electrodes, which are exposed through the cutout in the spacer; and a cover over the spacer. The biosensor can be formed by a simple method, and provides a uniform reagent layer on the electrodes regardless of the reagent composition. | 10-04-2012 |
20120251709 | METHOD FOR MANUFACTURING CERAMIC ELECTRONIC COMPONENT AND CERAMIC ELECTRONIC COMPONENT - A method for manufacturing a ceramic electronic component capable of preventing degradation of the self alignment property and product characteristics due to absorption of flux into pores of a ceramic element assembly during soldering in mounting and a ceramic electronic component. In the method, a ceramic element assembly is subjected to an oil-repellent treatment by using an oil-repellent agent containing a polyfluoropolyether compound as a primary component and hydrofluoroether as a solvent, so as to avoid absorption of the flux by the ceramic element assembly. | 10-04-2012 |
20120276283 | ARTICLE CARRIER WITH NON-ADHERENCE COATING - A non-adherence coating is applied to portions of article carriers used in paint and coating operations to prevent the adherence of paint, undercoat or other coatings applied to the articles from accumulating on the carrier and requiring high pressure fluid streams to remove the accumulated paint and coatings. Article contact surfaces on the carrier frames are left uncovered. Substantially all of the remaining portions of the carrier frames are coated with the non-adherence coating which can be fluoropolymer. The non-adherence coating can be a fluropolymer, such as tetrofluropolyethylene. A method of cleaning the article carrier from accumulated but non-adhered paint and/or undercoat uses a low pressure fluid stream. | 11-01-2012 |
20120276284 | METHOD FOR PREPARING FUNCTIONAL MULTILAYER ANISOTROPIC CONDUCTIVE ADHESIVE FILM - A functional multilayer anisotropic conductive adhesive film, capable of bonding and package 0.18-0.13 micron IC chips and high density COF, includes a monomer layer, a reinforcing layer, a low-temperature, hot-melt resin layer, and a conductive particle layer, successively bonded by coating and drying processes. The monomer layer comprises a copolymer of butyl acrylate, methyl acrylate, glycol acrylate, and tetramethyl butyl peroxy-2-ethyl hexanoate. The reinforcing layer comprises long chain imidazole derivatives. The hot-melt resin layer comprises polymer of tocopheroxyl, novolac epoxy, acrylic rubbers and elastic mixture of acrylic rubbers and styrene-butadiene rubbers. The conductive particle layer comprises conductive particles and micro-encapsulating resin for receiving the conductive particles. Diameter of the conductive particles is selected from the group consisting of 3.00 μm±0.05, 3.25 μm±0.05, 3.50 μm±0.05, 3.75 μm±0.05 and 4.00 μm±0.05. | 11-01-2012 |
20120288617 | PRECURSOR FORMULATION FOR BATTERY ACTIVE MATERIALS SYNTHESIS - Compositions and methods of forming battery active materials are provided. A solution of battery active metal cations and reactive anions may be blended with a fuel to yield a precursor mixture usable for synthesizing a battery active material for deposition onto a substrate. The battery active metal cations include lithium, manganese, cobalt, nickel, iron, vanadium, and the like. Reactive anions include nitrate, acetate, citrate, tartrate, maleate, azide, amide, and other lower carboxylates. Suitable fuels, which may be water miscible, may include amino compounds. Alcohols and sugars may be added to adjust carbon content and fuel combustion characteristics. An exothermic reaction is performed to convert the metals into battery active oxides. | 11-15-2012 |
20120288618 | GAS DIFFUSION ELECTRODE MATERIAL AND PRODUCTION METHOD THEREOF - A gas diffusion electrode material of the present invention includes: a porous body ( | 11-15-2012 |
20120295015 | METHOD FOR PREPARING ELECTRONIC COMPONENT-MOUNTING DEVICE - A method for making an electronic component-mounting device. The electronic component-mounting device includes an antenna having a coating layer and a conductive layer that is mounted on a polymeric device body. The coating layer is formed on the surface of the polymeric device body with the conductive layer formed on the coating layer opposite the polymeric device body. | 11-22-2012 |
20120301604 | USE OF ELECTRO-STATIC MASK TO APPLY LAYERS TO AN ELECTRO-ACTIVE OPTICAL ELEMENT - A method for manufacturing an electro-active lens may be provided. The method may comprise the steps of providing a substrate having a first surface; disposing a mask over at least a portion of the first surface of the substrate, where the mask comprises an electro-static plastic material and where the mask has at least one opening; and depositing a layer of material through the at least one opening of the mask. | 11-29-2012 |
20120315382 | Component protective overmolding using protective external coatings - Techniques for component protective overmolding using protective external coatings include applying a material over a structure of a device, the device being configured to perform an operation using data from one or more sensory inputs, and forming a coating over the material, the coating being configured to provide a protective property. | 12-13-2012 |
20120328773 | ACCURATE DEPOSITION OF NANO-OBJECTS ON A SURFACE - The invention notably concerns a method for depositing nano-objects on a surface. The method includes: providing a substrate with surface patterns on one face thereof; providing a transfer layer on said face of the substrate; functionalizing areas on a surface of the transfer layer parallel to said face of the substrate, at locations defined with respect to said surface patterns, such as to exhibit enhanced binding interactions with nano-objects; depositing nano-objects and letting them get captured at the functionalized areas; and thinning down the transfer layer by energetic stimulation to decompose the polymer into evaporating units, until the nano-objects reach the surface of the substrate. The invention also provides a semiconductor device which includes a substrate and nano-objects accurately disposed on the substrate | 12-27-2012 |
20130004654 | REACTIVE POLYMER-SUPPORTED POROUS FILM FOR FOR BATTERY SEPARATOR, METHOD FOR PRODUCING THE POROUS FILM, METHOD FOR PRODUCING BATTERY USING THE POROUS FILM, AND ELECTRODE/POROUS FILM ASSEMBLY - A reactive polymer-supported porous film for separator, that has sufficient adhesiveness between electrodes and separator and can suitably be used to produce a battery having low internal resistance and high rate performance, a method for producing the porous film, a method for producing a battery using the porous film, and an electrode/porous film assembly are disclosed. The reactive polymer-supported porous film for battery separator includes a porous film substrate having supported thereon a reactive polymer obtained by reacting a crosslinkable polymer having at least one reactive group selected from the group consisting of 3-oxetanyl group and epoxy group in the molecule, with an acid anhydride, thereby partially crosslinking the polymer. | 01-03-2013 |
20130004655 | FLOW-FILL SPACER STRUCTURES FOR FLAT PANEL DISPLAY DEVICE - A preferred embodiment of the invention is directed to support structures such as spacers used to provide a uniform distance between two layers of a device. In accordance with a preferred embodiment, the spacers may be formed utilizing flow-fill deposition of a wet film in the form of a precursor such as silicon dioxide. Formation of spacers in this manner provides a homogenous amorphous support structure that may be used to provide necessary spacing between layers of a device such as a flat panel display. | 01-03-2013 |
20130011549 | METHOD FOR PREPARING SEPARATOR FOR BATTERY WITH GEL POLYMER LAYER - Disclosed are a separator for a battery, which comprises a gel polymer layer formed on a substrate, the gel polymer layer including a plurality of three-dimensional open pores interconnected with each other, and an electrochemical device comprising the same separator. Also, disclosed is a method for preparing the gel polymer layer including a plurality of three-dimensional open pores interconnected with each other on a substrate. | 01-10-2013 |
20130011550 | METHOD FOR FORMING SILICON FILM AND METHOD FOR MANUFACTURING POWER STORAGE DEVICE - A formation method of a silicon film which contributes to improvements in cycle characteristics and an increase in charge/discharge capacity and can be used as an active material layer is provided. In addition, a manufacturing method of a power storage device including the silicon film is provided. The formation method is as follows. A crystalline silicon film is formed over a conductive layer by an LPCVD method. The supply of a source gas is stopped and heat treatment is performed on the silicon film while the source gas is exhausted. The silicon film is grown to have whisker-like portions by an LPCVD method while the source gas is supplied into the reaction space. A power storage device is manufactured using, as an active material layer included in a negative electrode, the silicon film grown to have whisker-like portions. | 01-10-2013 |
20130017318 | Vapor Deposition Apparatus and Method, and Method of Manufacturing Organic Light Emitting Display ApparatusAANM Seo; Sang-JoonAACI Yongin-cityAACO KRAAGP Seo; Sang-Joon Yongin-city KRAANM Song; Seung-YongAACI Yongin-cityAACO KRAAGP Song; Seung-Yong Yongin-city KRAANM Kim; Seung-HunAACI Yongin-cityAACO KRAAGP Kim; Seung-Hun Yongin-city KRAANM Kim; Jin-KwangAACI Yongin-cityAACO KRAAGP Kim; Jin-Kwang Yongin-city KR - A vapor deposition apparatus, which is capable of performing a thin film deposition process and improving characteristics of a formed thin film, includes: a chamber having an exhaust opening; a stage disposed in the chamber, and comprising a mounting surface on which the substrate may be mounted; an injection unit having at least one injection opening for injecting a gas into the chamber in a direction parallel with a surface of the substrate, on which the thin film is to be formed; a guide member facing the substrate to provide a set or predetermined space between the substrate and the guide member; and a driving unit conveying the stage and the guide member. | 01-17-2013 |
20130017319 | APPARATUS AND METHOD FOR COATING A FUNCTIONAL LAYER - An apparatus and method for coating a functional layer on a current collector with an active material layer thereon, the apparatus including a first roll and a second roll, the first roll and second roll being for advancing the current collector; a gravure roll, the gravure roll being configured to coat the functional layer on the active material layer; a thickness measurer, the thickness measurer being configured to measure at least one of a thickness of the active material layer and a sum thickness of the active material layer and the functional layer; and a controller, the controller being in communication with the thickness measurer and being configured to control a rotation speed of the gravure roll. | 01-17-2013 |
20130034651 | Aqueous Slurry For Battery Electrodes - A slurry or paste for the manufacture of electrodes for secondary batteries such as lithium ion containing electrochemical cells. The slurry comprises a water based binder with CMC, SBR and PVDF as binder materials. | 02-07-2013 |
20130040046 | METHOD FOR PRODUCING ELECTRODE FOR ELECTROCHEMICAL ELEMENT - It is an object of the present invention to provide a method for producing an electrode for an electrochemical element at low cost. The method for producing an electrode for an electrochemical element of the present invention includes a slurry preparation step of preparing a slurry of a mixture containing an active material, a slurry filling step of filling the slurry into continuous pores of an aluminum porous body having the continuous pores, and a slurry drying step of drying the filled slurry, wherein in the slurry preparation step, a slurry is prepared by using water as a solvent. | 02-14-2013 |
20130071552 | BATTERY ELECTRODE MANUFACTURING METHOD AND BATTERY MANUFACTURING METHOD - In a technology for manufacturing a battery electrode by applying an application liquid containing an active material, stripe-shaped pattern elements are formed at narrower intervals than before while contact between the pattern elements is avoided. While a nozzle | 03-21-2013 |
20130078365 | METHOD OF PRODUCING ELECTRODE FOR ELECTRICITY STORAGE DEVICE - A method of producing an electrode for an electricity storage device includes producing a paste to form an electrode active material layer, in which aggregates of a solids fraction material that contains at least an electrode active material and a binder are dispersed in a solvent, coating the paste on a surface of a current collector, and drying the current collector coated with the paste, to form the electrode active material layer formed of the solids fraction material. The paste is produced in such a manner that a content ratio of the solids fraction material in the paste is 60 to 80 mass %, an abundance ratio for the aggregates with a particle size that is equal to or smaller than 20 μm is at least 99%, and a viscosity at 25° C. and a shear rate of 40 s | 03-28-2013 |
20130122189 | METHOD OF MANUFACTURING INERTIAL SENSOR - Disclosed herein is a method of manufacturing an inertial sensor. The method includes: (A) preparing a base substrate; (B) forming a depressed first concave part in one surface of the base substrate; (C) forming a mass body in the first concave part by filling a metal or a combination of a metal and a polymer (or a polymer matrix composite) therein; and (D) forming a depressed second concave part in one surface of the base substrate at an outer side of the mass body and forming a flexible part on an upper portion of the second concave part in the base substrate. The mass body formed of the metal or the combination of the metal and the polymer (or the polymer matrix composite) has high density, thereby making it possible to improve sensitivity of the inertial sensor. | 05-16-2013 |
20130129914 | SECONDARY CELL ELECTRODE AND FABRICATION METHOD, AND SECONDARY CELL, COMPLEX CELL, AND VEHICLE - In a nonaqueous electrolyte cell-oriented electrode ( | 05-23-2013 |
20130136852 | EDGE DETECTION - A technique comprising: forming a plurality of smaller substrates from one or more larger substrates by a reduction process according to which there is some possible variation size between the smaller substrates within a variation range; and, in advance of said reduction process, providing said one or more larger substrates with one or more detection marks whose size and location are selected such that after the reduction process each smaller substrate includes a portion of at least one of said one or more detection marks, said portion having one or more edges that coincide with at least a part of one or more edges of the smaller substrate whatever actual size the smaller substrate has within said variation range. | 05-30-2013 |
20130136853 | RANDOMIZED CIRCULAR GRIDS FOR LOW-SCATTER EM SHIELDING OF A SENSOR WINDOW - A randomized elliptical grid disposed on a sensor window for electro-magnetic and/or radio-frequency shielding of sensors, and a method of applying same. Grids may be made of electrically conductive or resistive material and may include elliptical or circular shapes. The shapes are in physical contact with each-other and preferably do not contain straight lines to reduce detection artifacts caused by the coating. Grid element shape, size, orientation, and grid pattern density may be randomized or varied across a sensor window. | 05-30-2013 |
20130142943 | METHOD FOR PRODUCING ELECTRODE FOR SOLID BATTERY - The present invention provides a method for producing an electrode for a solid battery which can improve battery performance. The method for producing an electrode for a solid battery comprises the steps of: mixing an active material, a solid electrolyte, a binder, and a solvent to make a slurry-form electrode composition; applying the slurry-form electrode composition made; and drying the slurry-form electrode composition applied, wherein the solvent includes a good solvent for the binder and a poor solvent for the binder. | 06-06-2013 |
20130142944 | POSITIVE ELECTRODE MATERIALS FOR LITHIUM ION BATTERIES HAVING A HIGH SPECIFIC DISCHARGE CAPACITY AND PROCESSES FOR THE SYNTHESIS OF THESE MATERIALS - Positive electrode active materials are described that have a very high specific discharge capacity upon cycling at room temperature and at a moderate discharge rate. Some materials of interest have the formula Li | 06-06-2013 |
20130142945 | PROCESS FOR MANUFACTURING AN ELECTROCHROMIC ARTICLE - The present invention relates to a process for manufacturing an electrochromic article, comprising the following successive steps: (a) deposition of a layer of an electrochromic compound on the surface of a transparent or translucent electroconductive substrate; (b) deposition of a redox agent, which is a reducing agent or an oxidizing agent for the electrochromic compound, on the layer of electrochromic compound at a multitude of discrete points or areas thereon; (c) bringing the layer of electrochromic compound, deposited in step (a), and the redox agent, deposited in step (b), into contact with a liquid electrolyte for a time long enough to allow the electrochromic compound to be reduced or oxidized by the redox agent; and (d) elimination of the electrolyte by rinsing and/or drying, the layer of electrochromic compound being a porous layer of open porosity and/or an electrically conductive layer. | 06-06-2013 |
20130149434 | METHOD OF CUTTING TEMPERED GLASS AND METHOD OF FABRICATING TOUCHSCREEN USING THE SAME - A method of cutting a piece of tempered glass in which the piece of tempered glass is cut after a thin film having a tensile stress is formed a method of fabricating a touchscreen using the same. The method includes a step of forming a thin film layer having a tensile stress on the piece of tempered glass and a step of cutting the piece of tempered glass. | 06-13-2013 |
20130149435 | AQUEOUS DISPERSION CONTAINING A COMPLEX OF POLY(3,4-DIALKOXYTHIOPHENE) AND A POLYANION AND METHOD FOR PRODUCING THE SAME - An aqueous dispersion used for producing a conductive film is provided. The dispersion contains a complex of poly(3,4-dialkoxythiophene) and a polyanion, and is produced by polymerizing 3,4-dialkoxythiophene in an aqueous solvent in the presence of the polyanion by using peroxodisulfuric acid as an oxidizing agent or by using an oxidizing agent and an acid that is employed so as to lower pH of the reaction mixture. | 06-13-2013 |
20130171337 | METHOD FOR FABRICATING TRANSFER PRINTING SUBSTRATE USING CONCAVE-CONVEX STRUCTURE, TRANSFER PRINTING SUBSTRATE FABRICATED THEREBY AND APPLICATION THEREOF - A method for fabricating a substrate for transfer printing using a concave-convex structure and a substrate for transfer printing fabricated thereby. The method includes preparing a handling substrate having a concave-convex structure formed thereon; forming a sacrificial layer along the concave-convex structure on the handling substrate; coating a polymer on the handling substrate having the sacrificial layer formed thereon to form a polymer substrate having bumps filling a concave portion of the concave-convex structure; and removing the sacrificial layer from the handling substrate. The substrate includes a handling substrate having a concave-convex structure formed thereon; and a polymer substrate placed on the concave-convex structure and having bumps filling a concave portion of the concave-convex structure of the handling substrate. This process of manufacturing provides a device to be stably performed on an ultrathin substrate and may secure high degree of alignment and high transfer yield in a transfer printing process. | 07-04-2013 |
20130171338 | CONDUCTIVE POLYMER, SYNTHESIS METHOD THEREOF, AND ELECTROACTIVE ELECTRODE COVERED WITH SAID CONDUCTIVE POLYMER - The present invention provides a conducting polymer, a synthesis method thereof, and an electroactive electrode covered with the said conducting polymer. The conducting polymer is synthesized as follows: use the polybasic acid as dopant and crosslinking agent, and polymerize monomers into conducting polymer hydrogel. The monomers are selected one or more from pyrrole or its derivatives, thiophene or its derivatives, aniline or its derivatives. The acid group of the polybasic acid contains phosphate or polybasic acid which contains at least two substituents per molecule selected from sulfate, nitrate or carboxylic in which the molecular weight of at least one acid group is no more than 800. The mole ratio of the acid group in polybasic acid to monomers of the conducting polymer is 1:12-12:1. The preparation applied in the invention is simple, and need not to import any impurity. The conducting polymer hydrogel has high ionic conductivity, super hydrophilicity, and good biocompatibility. | 07-04-2013 |
20130177700 | METHOD FOR DROPPING LIQUID CRYSTAL AND METHOD FOR MANUFACTURING LIQUID CRYSTAL DISPLAY USING THE SAME - A liquid crystal dropping method and a liquid crystal display manufacturing method using the same are disclosed. The method for dropping a liquid crystal includes dropping a liquid crystal along a plurality of liquid crystal dropping routes on a display panel where a plurality of pixels are arranged in a matrix form, wherein a relative position of a first liquid crystal dropping route passing a first pixel among the plurality of pixels with respect to the first pixel, and a relative position of a second liquid crystal dropping route passing a second pixel among the plurality of pixels with respect to the second pixel, are substantially equivalent to each other. | 07-11-2013 |
20130183437 | METHOD FOR ENCAPSULATION OF ELECTRONICS RECEIVED IN WATER METER PITS WITH AN IMPROVED WAX-BASED ENCAPSULANT/MOISTURE BARRIER - The presently disclosed subject matter is directed to method for forming an encapsulant and coating electronic components such as those utilized in AMR technology with the encapsulant. The encapsulant comprises a wax, a tackifier, a polymer, a plasticizer, a thixotropic agent, and an antioxidant and is designed to protect electronic components from harsh environments such as those where high levels of humidity or corrosive liquids may be present. For example, the encapsulant exhibits minimal percent weight gain due to moisture vapor when subjected to temperatures ranging from about −40° C. to about 70° C. and relative humidities ranging from 0% to 85% over a period of 200 days. | 07-18-2013 |
20130183438 | BATTERY ELECTRODE MANUFACTURING METHOD AND BATTERY ELECTRODE MANUFACTURING DEVICE - Disclosed are a battery electrode manufacturing method and a battery electrode manufacturing device which improve yield in the battery electrode manufacture. The disclosed method for manufacturing battery electrode involves coating a transported current collector sheet with an electrode paste. A reduced-pressure chamber is arranged at the tip of a die where the aforementioned electrode paste is discharged, and the coating width of the aforementioned paste is controlled by changing the pressure of the aforementioned reduced-pressure chamber. | 07-18-2013 |
20130189424 | HEATING APPARATUS, VACUUM-HEATING METHOD AND METHOD FOR MANUFACTURING THIN FILM - Provided is a heating apparatus including: an object to be heated under vacuum; a heating body separable from the object to be heated, the heating body being configured so that a gap is formed between the heating body itself and the object to be heated; and a gas introduction channel for introducing a heat transfer gas into the gap. The object to be heated is heated by the heating body via the heat transfer gas. An example of the heating apparatus is a deposition apparatus | 07-25-2013 |
20130196053 | FLOW CELL DESIGN FOR UNIFORM RESIDENCE TIME FLUID FLOW - Embodiments of a deposition reactor that compensates for lateral flow variation are disclosed. The reactor has at least one wall defining a deposition chamber comprising a first region and a second region, the wall having a purposely formed curvature defining a height of the deposition chamber. An inlet for a fluid comprising reactants or deposition material is in fluid communication with the deposition chamber. Portions of the fluid flowing through the deposition chamber have a residence time within the deposition chamber that varies by ≦20% across a cross-sectional width of the deposition chamber. The deposition chamber may further comprise an outlet in fluid communication with a third region. The reactor is suitable for depositing material layers having a uniform thickness. Methods of using the reactor also are disclosed. | 08-01-2013 |
20130202781 | BATTERY MANUFACTURING METHOD (AS AMENDED) - The present invention provides a battery manufacturing method including: a step of preparing a thickener aqueous solution by dissolving a thickener in an aqueous solvent (S | 08-08-2013 |
20130209667 | CONDUCTIVE ANILINE POLYMER, METHOD FOR PRODUCING SAME, AND METHOD FOR PRODUCING CONDUCTIVE FILM - When measuring the molecular mass distribution of conductive aniline polymer of formula (1) by GPC and converting its retention time into molecular mass (M) in terms of sodium polystyrene sulfonate, for the molecular mass (M), the area ratio (X/Y) of the area (X) of a region of 15,000 Da or more to the area (Y) of a region of less than 15,000 Da is 1.20 or more. A method for producing such a polymer includes: polymerization step (Z1) where specific aniline derivative (A) is polymerized in a solution containing basic compound (B), solvent (C), and oxidizing agent (D) at a liquid temperature lower than 25° C.; or polymerization step (Z2) where specific aniline derivative (A) and oxidizing agent (D) are added to and polymerized in a solution of a conductive aniline polymer (P-1) with a unit of formula (1) dissolved or dispersed in a solvent (C). | 08-15-2013 |
20130216697 | METHOD OF MANUFACTURING INSULATING FILM STRUCTURE - A method of manufacturing an insulating film structure, including: forming a release layer on one side of a carrier film layer; forming a surface-treated layer formed on the other side of the carrier film layer; and casting an insulating film on the carrier film layer with the release layer formed thereon. | 08-22-2013 |
20130216698 | METHOD FOR INHIBITING GENERATION OF COPPER SULFIDE - The present invention provides a method for inhibiting production of copper sulfide in an electrical insulating oil inside an oil-filled electrical apparatus, including adding a benzotriazole compound not having a long-chain alkyl group when the oil-filled electrical apparatus is an open-type oil-filled electrical apparatus, or adding a benzotriazole compound having a long-chain alkyl group when the oil-filled electrical apparatus is a closed-type oil-filled electrical apparatus. | 08-22-2013 |
20130230641 | COATING METHOD AND COATING APPARATUS - In a coating apparatus | 09-05-2013 |
20130251889 | APPARATUSES, SYSTEMS AND METHODS FOR APPLYING PROTECTIVE COATINGS TO ELECTRONIC DEVICE ASSEMBLIES - A coating apparatus may be configured to concurrently receive and waterproof a large number of electronic device assemblies. The coating apparatus may include a track for transporting the electronic device assemblies into an application station. The application station may have a cubic shape, and include an entry door and an opposite exit door. The entry and exit doors may enable the introduction of substrates into the application station, as well as their removal from the application station. In addition, the entry and exit doors may enable isolation of the application station from an exterior environment and, thus, provide control over the conditions under which a moisture resistant material is applied to the substrates. Methods for making electronic devices and other substrates resistant to moisture are also disclosed. | 09-26-2013 |
20130251890 | Porous Separator Using Cellulose Nanofibrils and Method for Preparing the Same - A method of preparing a porous separator using cellulose nanofibrils is provided. The method includes preparing a sheet using a solution including cellulose nanofibrils and a pore-forming resin and removing the pore-forming resin included in the sheet to form micropores. | 09-26-2013 |
20130260017 | COATING DEVICE AND METHOD FOR PRODUCING ELECTRODE PLATE - A coating device is arranged to a strip-shaped base sheet with coating material by holding the coating material on the surface of a coating rod and bringing the base sheet into contact with the coating material held on the coating rod, while conveying the base sheet in the longitudinal direction. The coating rod has a water-repellent section, in which the entire circumferential surface of a part of the rod in the axial direction is coated with a water-repellent material that repels the coating material, and a non-water-repellent section that is not coated with the water-repellent material and arranged adjacent to the water-repellent section. Consequently, even if the base sheet is brought into contact with the coating rod, the base sheet can be adequately provided with an uncoated portion in a part in the width direction since the coating material is repelled in the water-repellent section. | 10-03-2013 |
20130260018 | PROCESS OF FABRICATING HEAT DISSIPATION SUBSTRATE - A process of fabricating a heat dissipation substrate is provided. A metal substrate having an upper surface, a lower surface, first recesses located on the upper surface and second recesses located on the lower surface is provided. The metal substrate is divided into carrier units and connecting units connecting the carrier units. A first and a second insulating materials are respectively filled into the first and the recesses. A first conductive layer is formed on the upper surface and the first insulating material. A second conductive layer is formed on the lower surface and the second insulating material. The first and the second conductive layers are patterned to form a first and a second patterned conductive layers. The first and the second insulating materials are taken as an etching mask to etch the connecting units of the metal substrate so as to form a plurality of individual heat dissipation substrates. | 10-03-2013 |
20130260019 | LAYER-ON-LAYER COATING DEVICE AND DOUBLE-SIDED COATING DEVICE, METHOD FOR PRODUCING ELECTRODE PLATES, AND METHOD FOR PRODUCING BATTERIES - The layer-on-layer coating device of an embodiment of the invention that conveys band-shaped substrates in the longitudinal direction thereof and coats two kinds of coating materials successively on the substrate comprises: a first coating unit that coats a first coating material on one surface of the substrate; a second coating unit that coats, without drying the first coated material in a drying furnace, a second coating material by a contactless method on the first coating material coated on the one surface by the first coating unit; and a feed roller that is disposed on the downstream side, in the direction of substrate conveyance, of the second coating unit and is driven by a driving source. It is thereby possible to apply a stable tension on the substrate while stably coating two layers of coating materials layer-on-layer using respective coating units and to produce electrode plates and batteries of stable properties. | 10-03-2013 |
20130260020 | BINDER FOR LITHIUM ION BATTERY ELECTRODE, PASTE FOR LITHIUM ION BATTERY NEGATIVE ELECTRODE, AND METHOD FOR PRODUCING LITHIUM ION BATTERY NEGATIVE ELECTRODE - The present invention is directed to a binder for a lithium ion battery electrode, comprising a polyimide precursor having a tetracarboxylic acid residue and a diamine residue and/or a polyimide, the polyimide precursor having a residue of a tetracarboxylic dianhydride selected from those represented by the following general formulas (1) and (2) as the tetracarboxylic acid residue, and a residue of a diamine selected from those represented by the following general formulas (3) and (4) as the diamine residue, the content of the acid residue being from 0.90 to 0.95 moles based on 1 mole of the diamine residue. | 10-03-2013 |
20130266723 | FLUOROPOLYMER COMPOSITIONS - A composition for solubilizing a fluoropolymer is described. Further described, is how the fluoropolymer composition is obtained, as well as the process for its preparation and its use as a coating applicant. The composition can include a solubilized fluoropolymer and a solvent blend of a diester and dimethylsulfoxyde. | 10-10-2013 |
20130273238 | Inverted Curing of Liquid Optoelectronic Lenses - A method of forming a lens over an optoelectronic element includes providing the optoelectronic element on a support substrate, dispensing a quantity of encapsulant onto the support substrate over the optoelectronic element, inverting the support substrate so that the support substrate is above the optoelectronic element and the encapsulant is suspended from the support substrate, and curing the encapsulant while maintaining the support substrate in the inverted position. | 10-17-2013 |
20130280413 | ELECTRODE MATERIAL APPLYING APPARATUS AND FILTERING APPARATUS - An electrode material applying apparatus | 10-24-2013 |
20130280414 | DEPOSITION METHOD - [Object] To provide a deposition method that enables fine particles having a relatively large particle diameter (at least larger than 0.5 μm diameter) to be more stably deposited on a substrate by using a simple configuration. | 10-24-2013 |
20130280415 | VACUUM CHAMBER METHOD TO FORM POLYMER COATINGS ON POROUS SUPPORT - A bi-polar electrode having ion exchange polymers on opposite faces of a porous substrate is formed using a method that includes providing an electrode substrate with activated carbon layers on opposite faces of the electrode substrate, wherein said faces have an outer perimeter band void of the activated carbon layers. Gaskets are placed against the outer perimeter band of the electrode substrate void of activated carbon and the electrode substrate is clamped between two rigid plates to form a first airtight chamber on one side of the electrode substrate and a second airtight chamber on the opposite side of the electrode substrate. A first polymerizable monomer mixture having an anion exchange group is added into the first chamber and a second polymerizable monomer mixture having a cation exchange group is added into the second chamber. The first and second polymerizable monomer mixtures are then polymerized in an oven. | 10-24-2013 |
20130295274 | METHOD FOR MANUFACTURING COLOR FILTER SUBSTRATE - A method for manufacturing a color film substrate including the following steps is provided. A substrate is provided. A first conductive black matrix extending along a first direction is formed on the substrate. A color film layer is formed on the substrate, and the normal projections of the color film layer and of the first conductive black matrix on the substrate are not overlapping. A plurality of insulating spacers is formed on the first conductive black matrix, and the height of the insulating spacers is greater than the thickness of the color film layer. A second conductive black matrix extending along a second direction and covering the insulating spacers is formed on the substrate. A passivation layer is formed for covering the first conductive black matrix, the color film layer, the insulating spacers and the second conductive black matrix. A transparent conductive layer is formed on the passivation layer. | 11-07-2013 |
20130302515 | METHOD OF FABRICATING INSULATING RESIN MATERIAL - The present invention relates to a method of fabricating an insulating resin material ( | 11-14-2013 |
20130316072 | ELECTROCHEMICAL CELLS COMPRISING POROUS STRUCTURES COMPRISING SULFUR - The present invention relates to the use of porous structures comprising sulfur in electrochemical cells. Such materials may be useful, for example, in forming one or more electrodes in an electrochemical cell. For example, the systems and methods described herein may comprise the use of an electrode comprising a conductive porous support structure and a plurality of particles comprising sulfur (e.g., as an active species) substantially contained within the pores of the support structure. | 11-28-2013 |
20130316073 | Method Of Forming An Interconnect Structure Having An Enlarged Region - A method of forming an interconnect structure that may reduce or eliminate stress induced voids is provided. In an embodiment, a via is formed below a conductive line to provide an electrical connection to an underlying conductive region. The conductive line includes a widened region above the via. The widened region serves to reduce or eliminate stress induced voids between the via and the underlying conductive region. In another embodiment, one or more redundant lines are formed extending from a conductive region, such as a contact pad, such that the redundant line does not electrically couple the conductive region to an underlying conductive region. In a preferred embodiment, the redundant lines extend from a conductive region on a side adjacent to a side having a conductive line coupled to a via. | 11-28-2013 |
20130344231 | AQUEOUS RESINOUS DISPERSIONS THAT INCLUDE A ZINC (II) AMIDINE COMPLEX AND METHODS FOR THE MANUFACTURE THEREOF - Disclosed herein are stable aqueous resinous dispersions and methods for forming such dispersions that include a zinc (II) amidine complex. | 12-26-2013 |
20140017394 | CATHODE COMPOSITION - A cathode composition for an alkali-sulfur cell, e.g., a lithium-sulfur cell, includes, in addition to elementary sulfur, at least one material having covalently and/or conically bound sulfur, for example, a sulfur composite material, a sulfurous polymer, a metal sulfide, or a nonmetal sulfide. | 01-16-2014 |
20140044865 | METHOD FOR MANUFACTURING A NANO-WIRE ARRAY AND A DEVICE THAT COMPRISES A NANO-WIRE ARRAY - A device having a nano-wire array and a method for manufacturing an array of nano-wires. The method includes spraying on a substrate droplets of a suspension that comprises nano-wires and at least a partially volatile solvent; and evaporating the at least partially volatile solvent of the droplets to form the array of nano-wires. At least one of the spraying and the evaporating comprises executing at least one aggregation reduction measure for limiting a formation of three dimensional aggregations of nano-wires on the substrate. | 02-13-2014 |
20140044866 | Method for the Automated Production Consisting of a Molecular Layer of Amphiphilic Molecules and a Device for Producing Said Molecular Layer - The invention is related to a method and an apparatus for the automated fabrication of a molecular layer made from amphiphilic molecules, in particular lipids for a lipid bilayer membrane, in the apparatus, which has a support substrate for supporting the molecular layer, a rotation element, which can be rotated on top of the support substrate, and an actuator device, by means of which the rotation element can be automatically rotated, wherein the rotation element has an outer surface, which is formed hydrophobic at least in sections, the method having the following steps: placing a first solvent, which contains amphiphilic molecules, in a region above the support substrate; causing the automatic rotation of the rotation element above the support substrate; moving the first solvent between the support substrate and the rotation element by the interaction of the rotating rotation element with the first solvent, thus forming the molecular layer. | 02-13-2014 |
20140065296 | METHOD AND APPARATUS FOR MANUFACTURING LEAD FRAMES - An embodiment of a method and an apparatus for manufacturing lead frames are described. For example, a coating layer is formed on one or more predefined portions of the surface of the substrate of the lead frame by delimiting the predefined portions by means of screen printing. The employment of screen printing may allow obtaining large amounts of lead frames with excellent electronic and structural properties in a quick and cost-effective way. | 03-06-2014 |
20140072697 | METHOD FOR MANUFACTURING ELECTRODE FOR BATTERY - A method for manufacturing an electrode for a battery includes: a mixing step of dry-mixing an active material and a conductive aid; a pressing step of applying a pressure for pressing to the mixture obtained in the mixing step; a step of mixing a solvent into the mixture after the pressing step to prepare a slurry (in paste form) active material; and an application step of applying the slurry active material onto a current collector to form an active material layer. | 03-13-2014 |
20140072698 | ELECTRODE AND METHOD FOR MANUFACTURING AN ELECTRODE - An electrode for an energy store, in particular for a lithium-ion battery. To achieve a particularly good and long-term stable capacitance, the electrode includes an active material, optionally a binder, optionally a conductive additive, and a sorption agent; intermediate stages of the active material arising during a charging and/or discharging procedure of the energy store may be immobilized by the sorption agent. Furthermore, also described is a method for manufacturing an electrode for an energy store, and the use of a sorption agent for manufacturing an electrode for an electrochemical energy store. | 03-13-2014 |
20140072699 | THIN-FILM BATTERY METHODS FOR COMPLEXITY REDUCTION - Thin-film battery methods for complexity reduction are described. Processing equipment arrangements suitable to support thin-film battery methods for complexity reduction are also described. Cluster tools to support thin-film battery methods for complexity reduction are also described. | 03-13-2014 |
20140079872 | METHOD FOR MANUFACTURING LITHIUM ION SECONDARY BATTERY - A method for manufacturing a lithium ion secondary battery having electrodes in which a mix layer including a first binder and one of a positive electrode active material and a negative electrode active material is formed via a second binder on a collector. The method includes: performing pattern coating of the second binder on the surface of the collector and regularly forming binder-coated sections and uncoated sections; and feeding a powder of mix particles on the binder-coated sections and the uncoated sections so as to form the mix layer on the collector. | 03-20-2014 |
20140079873 | METHOD FOR PRODUCING ELECTRODE ACTIVE MATERIAL AND ELECTRODE ACTIVE MATERIAL - The present invention is to provide an electrode active material and a method for producing the same capable of preventing production of foreign substance, poor coating and deterioration of electrode active material upon covering the surface of the electrode active material with ion conductive oxide, decreasing battery resistance and having higher output of battery. Disclosed is a method for producing an electrode active material, the surface of which is covered with ion conductive oxide, comprising the steps of: preparing an alkoxide solution by mixing at least alkoxide compound and liquid water; and applying and drying the alkoxide solution on a surface of an electrode active material under dry atmosphere, and an electrode active material, the surface of which is covered with ion conductive oxide, wherein an area on the surface of the electrode active material occupied by a substance other than the ion conductive oxide is 21% or less. | 03-20-2014 |
20140093638 | METHOD OF DISPENSING MATERIAL BASED ON ANGULAR LOCATE FEATURE - A dispensing system includes a frame, a dispensing unit gantry movably coupled to the frame, and a dispensing unit coupled to the dispensing unit gantry. The dispensing unit further includes a vision system gantry coupled to the frame and a vision system coupled to the vision system gantry. A controller is coupled to the dispensing unit gantry, the dispensing unit, the vision system gantry, and the vision system. The controller is configured to obtain an image of a fiducial provided on the electronic substrate, obtain an image of at least a portion of an object positioned on the electronic substrate, orient the object with respect to the dispensing unit, and perform a dispense operation to secure the object to the electronic substrate. Methods of dispensing material on a substrate are further disclosed. | 04-03-2014 |
20140099431 | CONDUCTIVE LEATHER MATERIALS AND METHODS FOR MAKING THE SAME - Conductive leather materials and methods for making the same are provided. The conductive leather materials may have a conductivity suitable to operate touch-sensitive electronic devices without a conductive path to the human body. | 04-10-2014 |
20140113066 | MANUFACTURING METHOD FOR SECONDARY BATTERY ELECTRODE AND ELECTRODE MANUFACTURING DEVICE - A manufacturing method for a secondary battery electrode, includes conveying an electrode current collector; applying an active material layer-forming composition that is prepared in a slurry state onto the electrode current collector; and drying a coating film that is made of the active material layer-forming composition formed on the electrode current collector. The coating film is dried by blowing a first hot air in a direction parallel to a coating film surface of the electrode current collector. | 04-24-2014 |
20140113067 | MANUFACTURING METHOD AND TEMPLATE OF COLOR FILTERS - A manufacturing method and template of color filters belong to the field of liquid crystal display. The manufacturing method comprises: forming a black matrix ( | 04-24-2014 |
20140120242 | ADHESION PROMOTER - Compositions useful for improving the adhesion of coating compositions, such as dielectric film-forming compositions, to a substrate are provided. Also provided are methods of improving the adhesion of coating compositions to a substrate. | 05-01-2014 |
20140120243 | SYNTHESIS AND PROCESSING OF NEW SILSESQUIOXANE/SILOXANE SYSTEMS - A method of forming a silsesquioxane/Q/siloxane polymer or oligomer system used to form coatings or monoliths, includes the step of mixing silsesquioxane, siloxane and alkoxysilane components having structures as presented below in ratios as presented below with a soluble F | 05-01-2014 |
20140120244 | ADHESION PROMOTER - Compositions useful for improving the adhesion of coating compositions, such as dielectric film-forming compositions, include a hydrolyzed poly(alkoxysilane). These compositions are useful in methods of improving the adhesion of coating compositions to a substrate. | 05-01-2014 |
20140127396 | ELECTROSTATIC DISCHARGE (ESD) PROTECTION USING LOW VISCOSITY ESD DISSIPATING ADHESIVE SUBSTANTIALLY FREE OF AGGLOMERATES - In one embodiment, a method for providing ESD protection to an element of an electronic device includes preventing formation of agglomerates of electrically conductive fillers in an ESD adhesive that includes a polymeric thin film, the electrically conductive fillers dispersed therein, and a solvent by subjecting the ESD adhesive to high-energy mixing during formation thereof, applying the ESD adhesive across exposed leads, such as leads of a cable, PCB, or other substrate, and evaporating solvent from the ESD adhesive. | 05-08-2014 |
20140141153 | METHOD OF MANUFACTURING CONDUCTIVE PASTE - A method of manufacturing a conductive paste comprising steps of: (a) preparing 5 to 60 parts by weight of an organic medium comprising, (i) 2 to 20 parts by weight of an organic polymer; and (ii) 3 to 40 parts by weight of a solvent comprising propylene glycol phenyl ether (PPh) and a dibasic ester (DBE) comprising one or more of dimethyl adipate, dimethyl glutarate or dimethyl succinate, wherein dimethyl succinate is not more than 1 wt % based on the weight of DBE, and wherein the mixing ratio of PPh and DBE is determined according to a desired viscosity at a desired shear rate, and (b) dispersing 40 to 95 parts by weight of a conductive powder into the organic medium. | 05-22-2014 |
20140141154 | VAPOR DEPOSITION APPARATUS, METHOD OF FORMING THIN FILM USING THE SAME AND METHOD OF MANUFACTURING ORGANIC LIGHT-EMITTING DISPLAY APPARATUS - A vapor deposition apparatus in which a deposition process is performed by moving a substrate, the vapor deposition apparatus including a supply unit that injects at least one raw material gas towards the substrate, and a blocking gas flow generation unit that is disposed corresponding to the supply unit and generates a gas-flow that blocks a flow of the raw material gas. | 05-22-2014 |
20140147578 | INSULATING PASTE, ELECTRONIC DEVICE AND METHOD FOR FORMING INSULATOR - An insulating paste includes insulating particles | 05-29-2014 |
20140154404 | Method of Making an Electrowetting Device - A method of making an electrowetting device includes: (a) providing a base that defines an inner space and that has an open end which defines an opening; (b) applying a first liquid of a magnetic ink to a predetermined region of the base within the inner space; (c) positioning the first liquid on the predetermined region of the base using a magnetic unit that is magnetically attractive to the first liquid; and (d) filling the inner space with a second liquid that is immiscible with the first liquid after step (c) | 06-05-2014 |
20140161967 | METHOD FOR PRODUCING LAMINATED POROUS FILM - The present invention provides a method for producing a laminated porous film comprising a porous film substrate and a heat-resistant layer. The method comprises forming a heat-resistant layer mainly comprising a filler on the surface of the porous film substrate by applying a coating slurry comprising a solvent, a binder resin and the filler to the surface of the porous film substrate and then removing the solvent, wherein the coating slurry is prepared so as to have a contact angle of 75° or more with an untreated porous film substrate, and the method comprises conducting surface treatment of a porous film substrate so that the contact angle of the coating slurry with the porous film substrate can be 65° or less before applying the coating slurry to the surface of the porous film substrate. | 06-12-2014 |
20140170303 | ELECTRODEPOSITION PROCESS FOR THE MANUFACTURE OF AN ELECTRODE FOR A METIAL-ION BATTERY - A method of depositing an active material for a metal ion battery comprising the steps of: providing a conductive material in an electrodeposition bath wherein the electrodeposition bath contains an electrolyte comprising a source of the active material; and electrodepositing the active material onto a surface of the conductive material. | 06-19-2014 |
20140186518 | Alignment film coating method and system for liquid crystal panel - A method of coating an alignment film for a liquid crystal panel and a system of the same are disclosed. Said method comprises steps of: providing a measuring instrument, a computer, and an ink jet printing machine; obtaining a pixel height difference of a pixel unit in the liquid crystal panel and the height of said pixel unit by using the measuring instrument; generating a coating amount by using the computer to calculate according to a predetermined equation and based on the pixel height difference of the pixel unit and the height of said pixel unit; and coating the alignment film on the pixel unit according to the coating amount calculated by the computer, by using the ink jet printing machine that is connected to the computer. The present invention can solve the problem of mura caused by unequal thickness of an alignment film. | 07-03-2014 |
20140186519 | CO-EXTRUSION PRINT HEAD FOR MULTI-LAYER BATTERY STRUCTURES - A co-extrusion print head capable of extruding at least two layers vertically in a single pass having a first inlet port connected to a first manifold, a first series of channels connected to the first inlet port arranged to receive a first fluid from the first inlet port, a second inlet port connected to one of either a second manifold or the first manifold, a second series of channels connected to the second inlet port arranged to receive a second fluid from the second inlet port, a merge portion of the print head connected to the first and second series of channels, the merge portion arranged to receive the first and second fluids, and an outlet port connected to the merge portion, the outlet port arranged to deposit the first and second fluids from the merge portion as a vertical stack on a substrate. | 07-03-2014 |
20140193573 | APPARATUS OF FORMING ELECTROCONDUCTIVE SUBSTANCE AND METHOD OF FORMING THE SAME - An apparatus forms an electroconductive substance in micro holes, the apparatus introduces a fluid, that includes at least a metal complex dissolved in a supercritical fluid or a subcritical fluid, into a reaction chamber including a first space and a second space, allows a planar substrate to be disposed in the fluid that continuously moves in a specific direction in the reaction chamber. A second surface of the substrate is vertical to the specific direction in which the fluid that is introduced into the first space moves; the substrate is supported throughout the entire first surface so that the fluid travels in the micro holes of the substrate from the second surface toward the first space of the substrate; and a support member including a fine communication hole through which the fluid passes toward the second space is disposed. | 07-10-2014 |
20140220233 | DIRECT FORMATION OF A SEPARATOR WITH A PROTECTIVE EDGE ON AN ELECTRODE - A method for forming integral separator-electrodes for a battery. The method comprises providing a continuous electrode sheet having an electrode active material deposited on a current collector. The method includes forming a plurality of individual electrodes from the continuous electrode sheet. Each electrode is formed having a center region and a plurality of edges. A separator coating having a substantially uniform thickness is applied to the center region and the plurality of edges of each electrode. The separator coating layer is larger in size than the electrode active material coated area. | 08-07-2014 |
20140220234 | METHOD FOR COATING SPARK PLUG THREADS WITH A POLYTETRAFLUOROETHYLENE MIXTURE - The invention relates to a method for coating spark plug threads with a polytetrafluoroethylene mixture comprising the steps of (a) bringing the spark plug to room temperature of 21° C. to 26° C. (70° F. to 79° F.); (b) mixing the polytetrafluoroethylene mixture thoroughly and filtering the material through a 100-mesh stainless steel screen (0.146 mm openings); (c) applying a minimum dry film thickness of 20 microns to 30 microns (0.8 mil to 1.2 mil) to the spark plug thread; and (d) baking the spark plug for 15 minutes at a metal temperature of 232° C. to 260° C. (450° F. to 500° F.). | 08-07-2014 |
20140234532 | LAMINATED COMPOSITE MATERIAL FOR PRODUCING DISPLAY ELEMENT, OPTICAL ELEMENT, OR ILLUMINATION ELEMENT - This disclosure, viewed from one aspect, relates to a laminated composite material, including a glass plate and an organic resin layer. The organic resin layer is laminated on one surface of the glass plate, the organic resin is a polyamide resin, the rate of mass change of the polyamide resin from 300° C. to 400° C. measured by thermo gravimetry (TG) is 3.0% or less, and the glass transition temperature of the polyamide resin is 300° C. or more. | 08-21-2014 |
20140234533 | COENZYME-LINKED GLUCOSE DEHYDROGENASE AND POLYNUCLEOTIDE ENCODING THE SAME - The present invention provides members that produce on a large scale a coenzyme-linked glucose dehydrogenase which has excellent substrate-recognizing ability toward glucose while providing low action on maltose. The present invention relates to a polynucleotide encoding a soluble coenzyme-linked glucose dehydrogenase that catalyzes the oxidation of glucose in the presence of an electron acceptor and has an activity toward maltose of 5% or lower; a polypeptide encoded by the nucleotide sequence of the polynucleotide; a recombinant vector carrying the polynucleotide; a transformed cell produced using the recombinant vector; a method for producing a polypeptide comprising culturing the transformed cell and collecting from the cultivated products a polypeptide that links to FAD to exert the glucose dehydration activity; a method for determination of glucose using the polypeptide; a reagent composition for determination of glucose; and a biosensor. | 08-21-2014 |
20140234534 | METHOD FOR APPLYING HIGH PERFORMANCE SILICON-BASED COATING COMPOSITIONS - Provided herein is a method for coating a surface. The method comprises providing a towelette moistened with a mixture of constituents to form a silicon-based coating composition comprising silane, siloxane, and an organic solvent. The mixture is transferred from the towelette to form a coating on a surface. The coating is cured ambiently with or without additional heat. Also provided herein is a moistened towelette for coating a surface. The towelette comprises (a) a substrate and (b) a mixture of constituents to form a silicon-based coating composition comprising silane. The mixture is contained within the substrate until applied to a surface, and, after application, the coating of the mixture onto the surface cures ambiently with or without additional heat. | 08-21-2014 |
20140272112 | Combinatorial Methods and Systems for Developing Electrochromic Materials and Devices - Embodiments provided herein describe methods and systems for evaluating electrochromic material processing conditions. A substrate having a plurality of site-isolated regions defined thereon is provided. A first electrochromic material, or a first electrochromic device stack, is formed above a first of the plurality of site-isolated regions using a first set of processing conditions. A second electrochromic material, or a second electrochromic device stack, is formed above a second of the plurality of site-isolated regions using a second set of processing conditions. The second set of processing conditions is different than the first set of processing conditions. | 09-18-2014 |
20140295060 | METHOD OF EMBEDDING AN INDUCTION HEATING ELEMENT INTO AN INJECTION MOLDING TOOL - An injection molding tool includes a first mold die having a first tool face and a second mold die having a second tool face. The second mold die is configured to abut the first mold die, wherein the first tool face and second tool face are configured to partially define a part cavity between the first mold die and the second mold die. An induction heating element is embedded into the first mold die such that the induction heating element defines a portion of the first tool face. The induction heating element includes an electrical conductor, an electrically insulating material disposed about the conductor, and a ferromagnetic material disposed adjacent the electrical conductor and electrically insulating material. | 10-02-2014 |
20140295061 | MICROPOROUS POLYOLEFIN COMPOSITE FILM WITH A THERMALLY STABLE POROUS LAYER AT HIGH TEMPERATURE - Provided is a microporous polyolefin composite film with a thermally stable porous layer at high temperature, particularly, to the microporous polyolefin composite film in which the thermally stable porous layer at high temperature, which contains organic or inorganic particles and heat-resistant polymer having aromatic ring in main chain and also having a melting temperature or a glass transition temperature of 170 to 500° C., is formed on one surface or both surfaces of a polyolefin microporous film by a phase separation, wherein the composite film with the porous layer has a permeability of 1.5×10 | 10-02-2014 |
20140302229 | COMPOSITE ACTIVE MATERIAL, ALL SOLID STATE BATTERY, AND METHOD FOR PRODUCING COMPOSITE ACTIVE MATERIAL - A main object of the present invention is to provide a composite active material provided with a coating layer having satisfactory electron conductivity. The object is attained by providing a composite active material including an active material and a coating layer that is formed on the surface of the active material and contains a carbonaceous material and an ion conductive oxide, wherein the elemental carbon concentration of the coating layer surface is 17.0 atm % or more. | 10-09-2014 |
20140308434 | MANUFACTURING METHOD OF ELECTRODE AND MANUFACTURING METHOD OF NON-AQUEOUS ELECTROLYTE BATTERY - According to one embodiment, a manufacturing method of an electrode, includes coating first and second surfaces of a current collector with slurry, and drying. The first surface is coated with the slurry in such a way that a slurry coated portion and a slurry non-coated portion are alternately arranged in a direction perpendicular to a moving direction of the current collector. The slurry non-coated portion is arranged on annular protruding portions of a backup roll. The second surface excluding a portion arranged on the annular protruding portions is coated with the slurry, thereby forming the slurry coated portion. Next, the slurry coated portions are dried. | 10-16-2014 |
20140314948 | METHOD OF FABRICATING A THREE-DIMENSIONAL (3D) POROUS ELECTRODE ARCHITECTURE FOR A MICROBATTERY - A method of fabricating a 3D porous electrode architecture comprises forming a microbattery template that includes (a) a lattice structure comprising a first lattice portion separated from a second lattice portion on a substrate, and (b) a solid structure on the substrate including a separating portion between the first and second lattice portions. Interstices of the first lattice portion are infiltrated with a first conductive material and interstices of the second lattice portion are infiltrated with a second conductive material. Each of the first and second conductive materials fill the interstices to reach a predetermined thickness on the substrate. The solid structure and the lattice structure are removed from the structure, thereby forming first and second conductive scaffolds comprising a porosity defined by the lattice structure and having a lateral size and shape defined by walls of the solid structure. | 10-23-2014 |
20140322433 | DURABLE TRANSPARENT INTELLIGENT COATINGS FOR POLYMERIC TRANSPARENCIES - A hard, transparent coating for a substrate and associated method for coating is disclosed. The coating includes alternating layers of a soft coating and a hard coating. The coating further includes a sensor. The electrical resistivity of the sensor may be measured to determine if the coating has been degraded. The coating may further include a hydrophobic outer layer. | 10-30-2014 |
20140329002 | COMPOSITIONS COMPRISING ENHANCED GRAPHENE OXIDE STRUCTURES AND RELATED METHODS - Embodiments described herein generally relate to compositions comprising a graphene oxide species. In some embodiments, the compositions advantageously have relatively high oxygen content, even after annealing. | 11-06-2014 |
20140329003 | ELECTRODE-FORMING COMPOSITION - The present invention pertains to a solvent based electrode-forming composition which comprises at least one vinylidene fluoride (VDF) polymer and a graphene oxide with an oxygen content of no more than 25 wt % dispersed in an organic solvent, wherein the VDF polymer comprises recurring units derived from vinylidene fluoride (VDF) and from at least one (meth)acrylic monomer (MA) having formula (I) here below: wherein: —R | 11-06-2014 |
20140356523 | MATERIALS, METHODS, AND APPARATUS FOR IMPROVING LEAK ROBUSTNESS - Materials, methods, and apparatus for improving the ability of an enclosure, such as a battery enclosure, to resist leakage/ingress of water or other liquids. Some embodiments and implementations may be particularly useful in connection with vehicle battery enclosures for electric vehicles, including hybrid electric vehicles. In some implementations, a surface energy of at least a portion of a battery enclosure of an electric vehicle may be lowered by impregnating at least a portion of the battery enclosure with a lower surface energy material, coating at least a portion of the battery enclosure with a hydrophobic coating, and/or roughening a surface of at least a portion of the battery enclosure. | 12-04-2014 |
20140370184 | Electrical Appliance - An object is to increase the conductivity of an electrode including active material particles and the like, which is used for a battery. Two-dimensional carbon including 1 to 10 graphenes is used as a conduction auxiliary agent, instead of a conventionally used conduction auxiliary agent extending only one-dimensionally at most, such as graphite particles, acetylene black, or carbon fibers. A conduction auxiliary agent extending two-dimensionally has higher probability of being in contact with active material particles or other conduction auxiliary agents, so that the conductivity can be improved. | 12-18-2014 |
20140377451 | ACTIVE MATERIAL-COATING APPARATUS FOR BATTERY AND METHOD OF OPERATING THE SAME - Provided is an active material-coating apparatus for a secondary battery and methods of operating the same. The active material-coating apparatus includes a tank having an active material, a pump coupled to the tank such that the active material is routed through the pump, a temperature control unit coupled to the pump and configured to control heating or cooling of a temperature of the active material routed through the pump. The temperature control unit may include a control unit configured to control a temperature of the temperature control unit. The active material-coating apparatus may further include a coating unit coupled to the temperature control unit, and a reel including a current collector, the reel being configured to route the current collector through the coating unit such that the current collector is coated with the active material routed through the temperature control unit and ejected from the coating unit. | 12-25-2014 |
20140377452 | METHOD FOR MANUFACTURING CABLE-TYPE SECONDARY BATTERY - The present invention relates to a method for manufacturing a cable-type secondary battery comprising an electrode that extends longitudinally in a parallel arrangement and that includes a current collector having a horizontal cross section of a predetermined shape and an active material layer formed on the current collector, and the electrode is formed by putting an electrode slurry including an active material, a polymer binder, and a solvent into an extruder, by extrusion-coating the electrode slurry on the current collector while continuously providing the current collector to the extruder, and by drying the current collector coated with the electrode slurry to form an active material layer. | 12-25-2014 |
20150010693 | DEVICE FOR INJECTING AIR AND FUEL INTO A COMBUSTION CHAMBER OF A TURBINE ENGINE - A method for depositing particles onto a substrate, or a running substrate, including: (a) making a compact film of particles floating on a carrier liquid provided in a transfer area having an outlet of particles laid out facing the substrate; (b) depositing a substance on the compact film of particles, in the transfer area; (c) transferring, through the outlet of particles and onto the substrate, the compact film of particles coated with the substance; and then (d) removing the substance to carry away with the substance the particles of the film which adhere to the substance, to generate at least one recessed area within the film deposited on the substrate. | 01-08-2015 |
20150044358 | COMPOSITION FOR FORMING SILICA BASED INSULATING LAYER, SILICA BASED INSULATING LAYER AND METHOD FOR MANUFACTURING SILICA BASED INSULATING LAYER - A composition for forming a silica-based insulation layer, a silica-based insulation layer, and a method of manufacturing the silica-based insulation layer, the composition including a solvent; and an organosilane-based condensation polymerization product, the organosilane-based condensation polymerization product being prepared from a compound mixture, the compound mixture including compounds represented by the following Chemical Formulae 1 and 2: | 02-12-2015 |
20150056367 | COMPOSITION FOR FORMING LIQUID CRYSTAL ALIGNMENT FILM AND LIQUID CRYSTAL DISPLAY ELEMENT - The present invention, which enables to align a liquid crystal molecule, when no voltage is applied thereto, and also to control pretilt angle of the liquid crystal molecule, relates to a composition for a liquid crystal alignment film comprising components represented by the following (A) to (D):
| 02-26-2015 |
20150064344 | GLASS-ELECTRODE RESPONSIVE-GLASS CLEANING LIQUID AND METHOD FOR CLEANING GLASS-ELECTRODE RESPONSIVE-GLASS - To maintain a uniform etching rate during cleaning of a responsive glass in a glass electrode, a responsive-glass cleaning liquid for a glass electrode | 03-05-2015 |
20150086707 | METHOD FOR MANUFACTURING A BATTERY - A method for manufacturing a battery provided with an electrode sheet including a separator layer integrally formed on an active material layer. The method includes: a coating step in which a liquid dispersion in which resin particles are dispersed is coated onto the active material layer, forming an undried separator layer; and a heat drying step in which the undried separator layer is dried by heating, forming the separator layer. The heat-drying step is a step for heat drying the undried separator layer at a temperature within a surface melting temperature range in which a surface portion of the resin particles melts, but a center portion does not melt. | 03-26-2015 |
20150110951 | METHOD FOR PRODUCING ELECTRODE ACTIVE MATERIAL AND ELECTRODE ACTIVE MATERIAL - The present invention is to provide an electrode active material and a method for producing the same capable of preventing production of foreign substance, poor coating and deterioration of electrode active material upon covering the surface of the electrode active material with ion conductive oxide, decreasing battery resistance and having higher output of battery. Disclosed is a method for producing an electrode active material, the surface of which is covered with ion conductive oxide, comprising the steps of: preparing an alkoxide solution by mixing at least alkoxide compound and liquid water; and applying and drying the alkoxide solution on a surface of an electrode active material under dry atmosphere, and an electrode active material, the surface of which is covered with ion conductive oxide, wherein an area on the surface of the electrode active material occupied by a substance other than the ion conductive oxide is 21% or less. | 04-23-2015 |
20150110952 | PERFLUOROETHER SEALANT COMPOSITIONS - Disclosed are perfluoroethers and perfluoroether compositions useful in high temperature aerospace applications. The perfluoroethers can be adapted for use with various curing chemistries. | 04-23-2015 |
20150118389 | APPARATUS AND METHOD FOR COATING SEPARATOR - Provided are an apparatus and method for coating a separator. The method includes supplying a coating solution to a receiving chamber; applying the coating solution received in the receiving chamber to a surface of the separator through a coating bar; collecting coating solution overflowing the receiving chamber by a collection chamber surrounding the receiving chamber; and returning coating solution from the collection chamber to the receiving chamber through a return line. | 04-30-2015 |
20150118390 | ELECTRO-OPTIC DISPLAYS, AND COMPONENTS FOR USE THEREIN - A method and system for forming filter elements on a plurality of display substrates using a digital imaging system operable to selectively deposit filter material at a plurality of deposition locations is disclosed. The method involves receiving orientation information defining a disposition of a plurality of pixels associated with the at least one display substrate, identifying pixels in the plurality of pixels that are to receive filter material for forming a filter element on the pixel, selecting deposition locations within each of the identified pixels in accordance with the orientation information to meet an alignment criterion associated with placement of the filter element within the pixel, and controlling the digital imaging system to cause deposition of the filter material at the selected deposition locations. A method and system for forming filter elements on a substrate is also disclosed, which involves selecting locations to receive filter material for forming filter elements on the substrate, introducing a random variation in placement of the filter elements, and forming filter elements at the selected locations, the substrate being subsequently aligned to a display substrate for forming a display. A method and system for forming filter elements on a display substrate is also disclosed, which involves selectively depositing filter material to form the filter elements on a plurality of pixels associated with the display substrate, and selectively exposing the deposited filter material to thermal laser radiation to condition the deposited filter material. | 04-30-2015 |
20150125592 | MANUFACTURING METHOD OF FIBER-CONTAINING DISPERSION, CONDUCTIVE FIBER-CONTAINING DISPERSION, AND MANUFACTURING METHOD OF CONDUCTIVE LAYER - A manufacturing method of a fiber-containing dispersion includes obtaining a crude dispersion | 05-07-2015 |
20150132473 | METHODS FOR THICK FILMS THERMOELECTRIC DEVICE FABRICATION - Solid state thermoelectric energy conversion devices can provide electrical energy from heat flow, creating energy, or inversely, provide cooling through applying energy. Thick film methods are applied to fabricate thermoelectric device structures using microstructures formed through deposition and subsequent thermal processing conditions. An advantageous coincidence of material properties makes possible a wide variety of unique microstructures that are easily applied for the fabrication of device structures in general. As an example, a direct bond process is applied to fabricate thermoelectric semiconductor thick films on substrates by printing and subsequent thermal processing to form unique microstructures which can be densified. Bismuth and antimony telluride are directly bonded to flexible nickel substrates. | 05-14-2015 |
20150140200 | PROCESS FOR MANUFACTURING A LI-ION BATTERY COMPRISING A FLUOROPOLYMERIC SEPARATOR - A method for making a Li-ion battery including the preparation of a positive electrode from an ink comprising at least one active electrode material, and at least one binder; the preparation of an electrode separator from an ink comprising at least one fluorinated copolymer; the preparation of a negative electrode from an ink comprising at least one active electrode material, and at least one binder. The fluorinated copolymer comprises: from 99.99 to 90 mol % of at least one fluorinated monomer; from 0.01 to 10 mol % of at least one acrylic acid derivative of formulae CR | 05-21-2015 |
20150140201 | ESD PROTECTION DEVICE AND METHOD FOR MANUFACTURING THE SAME - An ESD protection device is manufactured such that its ESD characteristics are easily adjusted and stabilized. The ESD protection device includes an insulating substrate, a cavity provided in the insulating substrate, at least one pair of discharge electrodes each including a portion exposed in the cavity, the exposed portions being arranged to face each other, and external electrodes provided on a surface of the insulating substrate and connected to the at least one pair of discharge electrodes. A particulate supporting electrode material having conductivity is dispersed between the exposed portions of the at least one pair of discharge electrodes in the cavity | 05-21-2015 |
20150140202 | Aluminum Electrical Wire with Crimped Terminal and Method for Producing Aluminum Electrical Wire with Crimped Terminal - Provided is a method for producing an aluminum cable with crimping terminal in which a copper or copper alloy crimping terminal is crimped to a conductor that is exposed by peeling off an insulating covering member in a terminal portion of an aluminum cable in which an outer periphery of the conductor constituted by twisting a plurality of aluminum or aluminum alloy strands is covered with the insulating covering member. The method includes an exposed conductor water-repellent treatment process of performing a water-repellent treatment to an outer peripheral surface of the exposed conductor with a water-repellent agent including a solvent having water-repellency. | 05-21-2015 |
20150147462 | RESIN COMPOSITION, FILLER-CONTAINING RESIN FILM FOR NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY, AND METHOD FOR PRODUCING FILLER-CONTAINING RESIN FILM FOR NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY - An object of the present invention is to provide a filler-containing resin film in which shedding of inorganic materials or the like is suppressed, a resin composition that can be used in production of the filler-containing resin film, and a method for producing the filler-containing resin film. The filler-containing resin film of the present invention is a filler-containing resin film comprising: a vinylidene fluoride copolymer obtained by copolymerizing vinylidene fluoride and a compound represented by formula (1) (in formula (1), R | 05-28-2015 |
20150147463 | DIELECTRIC MATERIALS - Certain polyphenylene oligomers having good solvent strip resistance, low coefficient of thermal expansion and good adhesion to a variety of surfaces are useful as thin-film dielectric materials in electronics applications. | 05-28-2015 |
20150147464 | METHOD FOR PRODUCING AN ELECTRODE FOR ELECTROCHEMICAL STORAGE SYSTEMS HAVING ACTIVE MATERIAL SOLUBLE IN THE ELCTROLYTE - A method for producing an electrode for electrochemical storage systems includes: applying an electrode slurry onto at least one side of a current collector for the formation of an electrode coating on the current collector, the electrode slurry having at least one active material; and applying an inhibitor material, with a predetermined width, onto adjacent regions of the electrode coating applied on the current collector, the inhibitor material being impermeable to liquid active material and to forms of the active material dissolved in the electrolyte. | 05-28-2015 |
20150299481 | Conductive Ink Composition - A representative printable composition comprises a liquid or gel suspension of a plurality of conductive particles; a first solvent comprising a polyol or mixtures thereof, such as glycerin, and a second solvent comprising a carboxylic or dicarboxylic acid or mixtures thereof, such as glutaric acid. In various embodiments, the conductive particles are comprised of a metal, a semiconductor, an alloy of a metal and a semiconductor, or mixtures thereof, and may have sizes between about 5 nm to about 1.5 microns in any dimension. A representative conductive particle ink can be printed and annealed to produce a conductor. | 10-22-2015 |
20150299494 | CROSS-LINKABLE POLYMERIC COMPOSITIONS, METHODS FOR MAKING THE SAME, AND ARTICLES MADE THEREFROM - Cross-linkable polymeric compositions comprising an ethylene-based polymer, an organic peroxide, an optional cross-linking coagent, and an antioxidant. Such cross-linkable polymeric compositions are prepared by imbibing at least a portion of the organic peroxide, the optional cross-linking coagent, and the antioxidant into the ethylene-based polymer. Such cross-linkable polymeric compositions can be employed in forming coated conductors. | 10-22-2015 |
20150307997 | Methods for Fabricating Metal Structures Incorporating Dielectric Sheets - Embodiments of the present invention provide mesoscale or microscale three-dimensional structures (e.g. components, device, and the like). Embodiments relate to one or more of (1) the formation of such structures which incorporate dielectric material and/or wherein seed layer material used to allow deposition over dielectric material is removed via planarization operations; (2) the formation of such structures wherein masks used for at least some selective patterning operations are obtained through transfer plating of masking material to a surface of a substrate or previously formed layer, and/or (3) the formation of such structures wherein masks used for forming at least portions of some layers are patterned on the build surface directly from data representing the mask configuration, e.g. in some embodiments mask patterning is achieved by selectively dispensing material via a computer controlled inkjet nozzle or array or via a computer controlled extrusion device. | 10-29-2015 |
20150333317 | STRUCTURE OF COMPLEXED CATHODE USING Li2S - A method for manufacturing a cathode of a lithium-sulfur secondary battery includes powder-complexing of Li | 11-19-2015 |
20150336126 | VACUUM DIP COATING APPARATUS - A dip coating apparatus includes a sealed case assembly for containing at least one workpiece to be coated; an air pump communicated with the sealed case assembly, for pumping air from the sealed case assembly and injecting air into the sealed case assembly; and a coating solution container containing a coating solution and communicated with the sealed case assembly, for injecting the coating solution to the sealed case assembly and retrieving the coating solution from the sealed case assembly. | 11-26-2015 |
20150337061 | POLYTHIOPHENE, WATER-SOLUBLE ELECTRICALLY CONDUCTIVE POLYMER USING IT, AND METHOD FOR PRODUCING IT - To provide a water-soluble polythiophene used as an electrically conductive material, and its production method. | 11-26-2015 |
20150340681 | METHOD OF PRODUCING COATED ACTIVE MATERIAL - The main object of the present invention is to provide a method of producing a coated active material capable of forming a coating layer while controlling damage to the active material surface. The invention solves the problem by providing a method of producing a coated active material, the coated active material is provided with an active material and a coating layer containing a sulfide solid electrolyte, including the steps of: a preparation step of preparing a raw material composition containing the active material and the sulfide solid electrolyte, and a kneading step of performing a rotary and revolutionary kneading process for the raw material composition without using a crushing medium and forming the coating layer on the surface of the active material. | 11-26-2015 |
20150340685 | METHOD FOR PRODUCING A COATING MATERIAL FOR COATING ELECTRODE CARRIERS AND COATING MATERIAL IN GRANULE FORM - The invention relates to a method for preparing a coating material for coating an electrode carrier. For known coating materials, the problem exists that these either cannot be stored without the input of energy or cannot be produced without quality fluctuations. To solve these problems, the method according to the invention comprises the steps of a) providing a dry mixture containing at least i) an active material, ii) a conductivity additive, as well as iii) a fluorine-containing polymer binder, b) bringing the dry mixture into contact with a solvent mixture containing ethylene carbonate and/or propylene carbonate, c) thoroughly mixing the solvent mixture and the dry mixture at a temperature of more than 80° C. until the fluorine-containing polymer binder has dissolved completely in the solvent mixture, wherein d), after the fluorine-containing polymer binder has dissolved completely, the mixture obtained is cooled to a temperature of less than 40° C. and the mixture obtained cures during the cooling process and e), the mixture obtained is granulated during or after the curing process. The granules obtained with the method can be stored without problems and can be used without quality fluctuations to coat an electrode carrier. | 11-26-2015 |
20150349323 | CONDUCTIVE POLYMER-COATED, SHAPED SULFUR-NANOCOMPOSITE CATHODES FOR RECHARGEABLE LITHIUM-SULFUR BATTERIES AND METHODS OF MAKING THE SAME - The present disclosure relates to a nanocomposite comprising shaped sulfur and a polymer layer coating the shaped sulfur. An alternative embodiment of the disclosure provides a method of synthesizing a nanocomposite. This method comprises forming a shaped sulfur. This may include preparing an aqueous solution of a sulfur-based ion and a micelle-forming agent, and adding a nucleating agent. The method further includes coating the shaped sulfur with a polymer layer. Another embodiment of the disclosure provides a cathode comprising nanocomposites of the present disclosure, and batteries incorporating such cathodes. | 12-03-2015 |
20150349329 | NON-AQUEOUS ELECTROLYTE SECONDARY BATTERY AND METHOD OF MANUFACTURING THE SAME - A non-aqueous electrolyte secondary battery includes a positive electrode composite material layer containing first positive electrode active material particles containing a lithium nickel composite oxide, second positive electrode active material particles containing lithium iron phosphate, and a conductive material. A ratio of the second positive electrode active material particles in a total mass of the first positive electrode active material particles and the second positive electrode active material particles is not lower than 5 mass % and not higher than 20 mass %. A standard deviation σ representing distribution of an iron element satisfies a condition of 0.28≦σ≦0.52 when distribution of the iron element is determined by conducting area analysis with an electron probe microanalyzer in a cross-section of the positive electrode composite material layer. | 12-03-2015 |
20150357086 | CURABLE COMPOSITION FOR ELECTRICAL MACHINE, AND ASSOCIATED METHOD - A curable composition for an electrical machine is presented. The curable composition includes: (A) about 10 weight percent to about 30 weight percent of a polyfunctional cyanate ester; (B) about 25 weight percent to about 60 weight percent of a first difunctional cyanate ester, or a prepolymer thereof; (C) about 10 weight percent to about 30 weight percent of a second difunctional cyanate ester, or a prepolymer thereof, and (D) about 5 weight percent to about 25 weight percent of a thermally conductive filler comprising boron nitride. An associated method is also presented. | 12-10-2015 |
20150368559 | POLYMERIZABLE COMPOSITION - Provided are a liquid crystal device, a composition capable of forming a liquid crystal layer, a method of manufacturing the liquid crystal device, a system for manufacturing the liquid crystal device, and a use of the liquid crystal device. The liquid crystal device is a device capable of exhibiting, for example, a normally white or black mode, which may exhibit a high contrast ratio and be driven with a low driving voltage, and exhibit excellent durability such as thermal stability. Such a liquid crystal device may be applied to various optical modulators such as a smart window, a window protective film, a flexible display device, an active retarder for displaying 3D images, or a viewing angle control film. | 12-24-2015 |
20150371740 | CONDUCTIVE PATTERN FORMATION METHOD AND CONDUCTIVE PATTERN FORMATION DEVICE - A conductive pattern formation method includes: a step of patterning a base member with an ink in which conductive particulates are distributed to form a pattern; a step of making a conductive developer act on the pattern; and a pressurization step of pressurizing the pattern. | 12-24-2015 |
20150371772 | INDUCTOR WITH CONDUCTIVE TRACE - Among other things, a method for forming an inductor is provided. The method includes forming an insulating layer on a carrier. The method includes forming a trench in the insulating layer. The method also includes forming a magnetic structure within the trench. The method includes forming a conductive trace around the magnetic structure to form the inductor. | 12-24-2015 |
20150376419 | Anodic-Cathodic Corrosion Inhibitor-Conductive Polymer Composite - A conductive polymer corrosion protective composite is provided which may be used as a coating for imparting corrosion protection to structures such as turbine engine components. The composite comprises an organic-inorganic component and corrosion inhibitive pigments comprising an anodic corrosion inhibitor and a cathodic corrosion inhibitor. The anodic corrosion inhibitor may be selected from the group consisting of compounds of vanadium, molybdenum, tungsten, and mixtures thereof. The cathodic corrosion inhibitor may be selected from the group consisting of cerium, neodymium, praseodymium, and mixtures thereof. | 12-31-2015 |
20150378148 | METHOD OF MANUFACTURING AN ELECTROWETTING DEVICE - A method of manufacturing an electrowetting device including dispensing a fluid from a channel and onto a surface of a support plate. The channel is formed by a part of the surface of the support plate, an interface between the fluid and another fluid, and a further surface which is for example a surface of a roller. | 12-31-2015 |
20150382477 | BURNING METHOD - There is provided a burning method of burning, on a base member, a precursor in which conductive particles are dispersed in a dispersion medium, and the burning method includes: a first pressurization step of pressurizing the precursor heated to a burning temperature or above; and a second pressurization step of pressurizing, after the first pressurization step, the precursor with a pressurization force higher than a pressurization force in the first pressurization step. | 12-31-2015 |
20160013491 | ELECTRONICALLY CONDUCTIVE POLYMER BINDER FOR LITHIUM-ION BATTERY ELECTRODE | 01-14-2016 |
20160017493 | SYSTEMS AND METHODS FOR IMPROVING DEPOSITION RATE UNIFORMITY AND REDUCING DEFECTS IN SUBSTRATE PEOCESSING SYSTEMS - Systems and methods for delivering liquid precursor in a substrate processing system include supplying liquid precursor using a first valve in fluid communication with a liquid precursor source; supplying purge gas using a second valve in fluid communication with a purge gas source; arranging a third valve having a first input port in fluid communication with an output port of the first valve and a second input port in fluid communication with an output port of the second valve; arranging an input port of a first divert injector valve in fluid communication with an output port of the third valve; and operating the first valve, the second valve, the third valve and the first divert injector valve in first, second, third and fourth modes. | 01-21-2016 |
20160040021 | ADHESION PROMOTER - Compositions useful for improving the adhesion of coating compositions, such as dielectric film-forming compositions, include a hydrolyzed poly(alkoxysilane). These compositions are useful in methods of improving the adhesion of coating compositions to a substrate. | 02-11-2016 |
20160054674 | CONDUCTIVE MEMBER - Provided is such a conductive member that a change in its electrical resistance value caused by its long-term use is reduced to the extent possible. The conductive member has a conductive support and a conductive layer, the conductive layer contains a rubber composition formed of a modified epichlorohydrin rubber, and the modified epichlorohydrin rubber has a unit represented by the following formula (1). In the formula (1), R1, R2, and R3 each independently represent hydrogen or a saturated hydrocarbon group having 1 to 18 carbon atoms. | 02-25-2016 |
20160056447 | METHODS FOR MANUFACTURING BIOCOMPATIBLE CATHODE SLURRY FOR USE IN BIOCOMPATIBLE BATTERIES - Methods and apparatus to form biocompatible energization elements are described. In some examples, the methods and apparatus to form the biocompatible energization elements involve forming cavities comprising active cathode chemistry. The active elements of the cathode and anode are sealed with a biocompatible material. In some examples, a field of use for the methods and apparatus may include any biocompatible device or product that requires energization elements. | 02-25-2016 |
20160060393 | POLYARYLENE MATERIALS - Certain polyarylene oligomers having improved solubility are useful in forming dielectric material layers in electronics applications. | 03-03-2016 |
20160060497 | METHOD OF MANUFACTURING ANTISTATIC FILM - A method of manufacturing an antistatic film includes a preparation step of preparing a mixed liquid by mixing a polyvinyl alcohol with an aqueous conductive polymer dispersion in which a conductive composite containing a π-conjugated conductive polymer and a polyanion is included in a water-based dispersion medium; a coating step of obtaining a coating film by coating at least one surface of a film base with the mixed liquid; and a drying and stretching step of drying and stretching the coating film with heating. | 03-03-2016 |
20160087260 | Protected Transition Metal Hexacyanoferrate Battery Electrode Synthesis Method - A protected transition metal hexacyanoferrate (TMHCF) battery cathode is presented, made from A | 03-24-2016 |
20160090488 | MESH-LIKE MICRO- AND NANOSTRUCTURE FOR OPTICALLY TRANSPARENT CONDUCTIVE COATINGS AND METHOD FOR PRODUCING SAME - Described is a method for producing a mesh structure involving forming a substantially uniform layer of a material on a surface of a substrate, wherein upon occurrence of a predetermined chemical or a physical reaction, the material of the uniform layer mechanically contracts and wherein the material of the uniform layer has a sufficiently high adhesion to the surface of the substrate and causing the uniform layer of material to break into clusters separated by gaps by facilitating the occurrence of the predetermined chemical or physical reaction in the uniform layer of the material formed on the surface of the substrate, wherein the uniform layer of material breaks into the clusters due to appearance of mechanical stresses, sufficient to break the uniform layer of material into the clusters, the mechanical stresses being caused by the occurrence of the predetermined chemical or physical reaction in the uniform layer of the material. | 03-31-2016 |
20160097124 | APPARATUS AND METHOD OF MANUFACTURING DISPLAY APPARATUS - An apparatus and a method of manufacturing a display apparatus are disclosed. In one aspect, the apparatus includes a chamber and an inorganic layer forming nozzle unit formed in the chamber and configured to form at least one inorganic layer. The apparatus also includes an organic layer forming nozzle unit formed in the chamber and configured to form at least one organic layer, wherein the organic layer forming nozzle unit is arranged substantially in line with the inorganic layer forming nozzle unit. The apparatus further includes a separating nozzle unit formed between the inorganic layer forming nozzle unit and the organic layer forming nozzle unit and configured to spray an inert gas. | 04-07-2016 |
20160101432 | METHOD FOR PRODUCING A SUBSTRATE BY SPRAYING PARTICLES ONTO A COMPACT FILM OF SOLID PARTICLES ON A CARRIER LIQUID - A method for producing an assembly of particles bound by a substrate, including: making a compact film of solid particles floating on a carrier liquid, the solid particles potentially holding objects between them; spraying particles onto a face of the compact film opposite to the one immersed in a carrier liquid, to create a substrate-forming-skin adhering to the solid particles; and extracting an obtained assembly outside the carrier liquid. | 04-14-2016 |
20160102209 | PROCESS OF PROTECTING METAL SUBSTRATES WITH CORROSION-RESISTANT COMPOSITIONS - This invention relates to galvanic aluminum alloy powder-pigments coated with semi-conducting corrosion-inhibiting compositions and particularly to the process for preparing said coated powder-pigments for coating substrates to inhibit corrosion. The coated aluminum alloy powder-pigments are electrically active and prevent corrosion of metals which are more cathodic (electropositive) than the coated-aluminum alloy pigments. | 04-14-2016 |
20160107926 | MANUFACTURING METHOD OF FLEXIBLE SUBSTRATE - A manufacturing method of a flexible substrate is provided. The method comprises: coating a flexible substrate material and drying it; using a mask to expose the dried flexible substrate material, wherein the mask has a plurality of opaque regions distanced from each other, and the opaque regions form a designed pattern; developing the flexible substrate material to remove a portion of the flexible substrate material except the opaque regions; and curing the flexible substrate material to form a plurality of films comprising the flexible substrate material, which correspond to the designed pattern. | 04-21-2016 |
20160111708 | CONTROL SYSTEM AND CONTROL METHOD - The surface profile of a coating material in a substrate width direction is optimized in coating a substrate with the coating material such as an electrode active material. A gap adjuster configured to adjust a gap between a nozzle for ejecting a coating material and a substrate to be coated with the coating material, a rotation speed adjuster configured to adjust a rotation speed of a pump for pressure-feeding the coating material to the nozzle, a model calculator configured to calculate a surface profile of the coating material based on an end region model and a central region model wherein the end region model models profiles of rising regions in the surface profile of the coating material in a width direction of the substrate and the central region model models a profile of a central region between the rising regions in the surface profile, a comparator configured to compare a predetermined set profile with the surface profile of the coating material calculated by the model calculator, and a control calculator configured to calculate a control amount of at least one of the gap adjuster and the rotation speed adjuster based on a comparison result of the comparator are included. | 04-21-2016 |
20160123855 | ELECTRICALLY CONDUCTIVE SAMPLE BLOCKS FOR SCANNING ELECTRON MICROSCOPY - The present invention provides a method for preparing a sample for microscopy, said method comprising the steps of contacting said sample with a first polymerizable resin under conditions and for a time sufficient for penetration of said first polymerizable resin into the sample, removing excessive first polymerizable resin from the surface of the sample, contacting the so-prepared sample containing said first polymerizable resin with a second polymerizable resin preparation, said second polymerizable resin preparation comprising a high concentration of electrically conductive particles, and subjecting the so-prepared sample to the curing temperature of the polymerizable resins, wherein the curing temperature of said second polymerizable resin preparation is substantially the same as the curing temperature of the first polymerizable resin. | 05-05-2016 |
20160126816 | VARNISH IMPREGNATION APPARATUS AND VARNISH IMPREGNATION METHOD - A varnish impregnation apparatus that includes a support that supports a stator, in which the stator coil is mounted to the stator core, with an axial direction of the stator directed in a horizontal direction while grasping a radially outer side of the stator, and that is rotationally driven by a rotary device to rotate the stator; a varnish dropping device that drops the varnish toward a coil end portion of the stator which is rotated while being supported by the support; and a heater disposed in a cavity portion provided at an axial center of the stator core of the stator supported by the support to heat the stator from a radially inner side of the stator. | 05-05-2016 |
20160129470 | COATING APPARATUS AND COATING METHOD - In a coating apparatus, which coats an object to be coated with a viscous coating material while causing a moving part to move a flat nozzle that discharges the coating material, the nozzle includes a cylinder that applies predetermined pressing force F to the nozzle towards the object to be coated. The cylinder forms a gap (G) between the object to be coated and the nozzle by moving the nozzle in a direction away from the object to be coated to a position where discharge reaction force (R) is balanced with pressing force (F). The discharge reaction force (R) is generated when the nozzle discharges the coating material to the object to be coated. | 05-12-2016 |
20160133802 | METHOD OF PRODUCING A CONVERSION ELEMENT - A method of producing a conversion element includes providing a substrate having a surface; forming a first mask structure above the surface, wherein the first mask structure has first webs and first openings arranged between the first webs and the first openings form cavities in which the surface of the substrate is accessible; arranging a second mask structure above the first mask structure, wherein the second mask structure has second webs and second openings arranged between the second webs, the first webs are at least partly covered by the second webs, and the cavities remain at least partly accessible through the second openings; spraying a material into the cavities through the second openings; removing the second mask structure; and removing the first mask structure. | 05-12-2016 |
20160137509 | METHOD FOR MANUFACTURING GRAPHENE USING COVER MEMBER AND METHOD FOR MANUFACTURING ELECTRONIC ELEMENT INCLUDING SAME - Disclosed are graphene and a method of manufacturing the same. The method of manufacturing graphene includes forming a metal catalytic layer on a substrate (Step a), providing a cover member on the metal catalytic layer of Step a (Step b), and growing graphene on the metal catalytic layer of Step b by performing chemical vapor deposition (Step c), whereby the size of the micro-scale grain boundary on the surface of the metal catalyst can be reduced by simultaneously promoting the aggregation of metal catalytic molecules in a chemical vapor deposition device and preventing the evaporation of the metal catalyst due to the effect of the cover member, ultimately improving the quality of synthesized graphene, including the transparency thereof. Also, a graphene sheet can be grown under various concentrations of carbon source gas, and efficient mass production thereof is possible in a chemical vapor deposition device having a confined space. | 05-19-2016 |
20160138180 | METHOD FOR FABRICATION OF ANISOTROPIC CONDUCTIVE MEMBER AND METHOD FOR FABRICATION OF ANISOTROPIC CONDUCTIVE BONDING PACKAGE - Provided is a method for fabrication of an anisotropic conductive member, the method including a residual stress relaxation step of obtaining an anisotropic conductive member that has been subjected to a treatment for relaxing residual stress, after fabricating an anisotropic conductive member having plural conductive paths, in which plural micropores of an insulating matrix formed from an anodic oxide film are filled with a conductive member. | 05-19-2016 |
20160141715 | METHOD FOR PRODUCING ELECTRODE FOR LITHIUM ION BATTERIES - A binder layer formation step of forming a binder layer of which an initial sticking strength of a surface is 1 or more on a current collector; a sticking step of sticking a powder having an angle of repose of 45° or less onto the surface of the binder layer by bringing the powder into contact with the surface; and a compression step of compressing the powder stuck in the sticking step into a predetermined density are included. | 05-19-2016 |
20160148807 | POLYCRYSTALLINE SEMICONDUCTOR NANOSTRUCTURED MATERIAL - A method for producing a network of nanostructures from at least one semiconductor material, including a step of forming nanostructures on the surface of a substrate, at least a part of the nanostructures having areas of contact between each other, comprising, in sequence and after the step of forming: a step of deoxidising the surface of the nanostructures and a step of reinforcing the bond between the nanostructures at the contact areas. | 05-26-2016 |
20160149133 | DEPOSITION MASK AND METHOD OF FABRICATING THE SAME - A deposition mask comprises a mask body comprising a plurality of through holes; and a deposition layer formed on external surfaces of the mask body. A method of manufacturing a deposition mask comprises: installing a deposition mask body in a chamber; forming a magnetic field between a plurality of magnet units within the chamber, wherein the deposition mask body is disposed between the magnet units; and applying voltages to first and second sputtering targets comprising a material to generate electric discharge such that particles of the material are sputtered from the first and second sputtering targets and deposited on the deposition mask body, thereby making a deposition mask with a layer of the material. The voltages having different magnitudes are applied to the first and second sputtering targets. | 05-26-2016 |
20160149202 | NEGATIVE ELECTRODE, NEGATIVE ACTIVE MATERIAL, METHOD OF PREPARING THE NEGATIVE ELECTRODE, AND LITHIUM BATTERY INCLUDING THE NEGATIVE ELECTRODE - A negative electrode including: a current collector; a negative active material layer formed on the current collector; and a polymer coating layer that is formed on the negative active material layer and comprises a fluorinated acrylate type polymer. | 05-26-2016 |
20160149205 | LITHIUM ION BATTERIES - An improved method of making a cathode for use in a lithium ion battery is comprised of mixing a lithium metal oxide and lithium metal phosphate in a solvent, where both of these are comprised of primary particles that have been agglomerated into secondary particles of particular size and mixing is insufficient to break up the particles of the lithium metal phosphate, coating the mixture of step (A) on to a metal foil and removing the solvent to form the cathode. The lithium metal oxide is also desirably not broken either. The cathode may be one that has lithium metal oxide and a particular lithium metal phosphate wherein the majority of the metal is Mn. | 05-26-2016 |
20160153092 | Metallic Nanofiber Ink, Substantially Transparent Conductor, and Fabrication Method | 06-02-2016 |
20160155981 | METHOD FOR FORMING A CONDUCTOR PATH STRUCTURE ON AN ELECTRODE SURFACE OF AN ELECTRONIC COMPONENT | 06-02-2016 |
20160164081 | METHOD FOR MAKING LITHIUM ION BATTERY ANODE ACTIVE MATERIAL - A method for making a lithium ion battery anode active material comprising: providing silicon particles and a silane coupling agent, wherein the silane coupling agent comprises a hydrolysable functional group and an organic functional group; mixing the silicon particles and the silane coupling agent in water to obtain a first mixture; adding a monomer or oligomer to the first mixture to obtain a second mixture, the surfaces of the silicon particles being coated with a polymer layer by in situ polymerization method to obtain silicon polymer composite material, the monomer or the oligomer reacting with the organic functional group of the silane coupling agent in a polymerization, thereby a generated polymer layer being chemically grafted on the surfaces of the silicon particles; and heating the silicon polymer composite material to carbonize the polymer layer to form a carbon layer coated on the surfaces of the silicon particles. | 06-09-2016 |
20160168017 | Lead-Free Glass and Sealing Material | 06-16-2016 |
20160168419 | SILYLATED POLYARYLENES | 06-16-2016 |
20160172081 | Method for Producing High-Voltage Insulation of Electrical Components | 06-16-2016 |
20160172662 | Method for Manufacturing Electrodes Using Three-Dimensional Substrate for Electrochemical Applied Products | 06-16-2016 |
20160172685 | METHOD AND SYSTEM FOR CORE-SHELL CATALYST PROCESSING | 06-16-2016 |
20160177432 | METHOD OF FORMING A MULTI-LAYERED STRUCTURE OF ALTERNATING CONDUCTING AND NON-CONDUCTING LAYERS | 06-23-2016 |
20160180981 | COMPOSITE CONDUCTIVE MATERIAL, POWER STORAGE DEVICE, CONDUCTIVE DISPERSION, CONDUCTIVE DEVICE, CONDUCTIVE COMPOSITE AND THERMALLY CONDUCTIVE COMPOSITE | 06-23-2016 |
20160181592 | Method for Manufacturing Transparent Electrode Film | 06-23-2016 |
20160189866 | METHOD FOR FORMING EXTERNAL ELECTRODE OF ELECTRONIC COMPONENT - A method for forming an external electrode of an electronic component, which can apply sufficient conductive paste to even an end, and is able to enhance reliability as an electronic component. In the method for forming an external electrode of an electronic component, a conductive paste is applied to a printing target through a metal mask composed of a hole and a mesh portion disposed to surround the outer perimeter of the hole. The metal mask has the outer perimeter of the hole located inside a printing region of the printing target, and the outer perimeter of the mesh portion is located outside the printing region of the printing target. | 06-30-2016 |
20160189885 | ELECTRONIC COMPONENT, METHOD OF MANUFACTURING THE SAME, AND MOUNT STRUCTURE OF ELECTRONIC COMPONENT - An electronic component includes a main body, first and second external electrodes, and a water-repellent film. The first and second external electrodes are provided on a portion of a surface of the main body. The water-repellent film is provided on another portion of the surface of the main body and on a surface of the first external electrode. The water-repellent film contains a non-cross-linked silicone resin. An angle of contact of water of about 25° C. with the water-repellent film is not less than about 100° and not greater than about 160°. | 06-30-2016 |
20160194504 | CONDUCTIVE PASTE AND CERAMIC ELECTRONIC COMPONENT | 07-07-2016 |
20160194774 | Electrochemical Fabrication Process for Forming Multilayer Multimaterial Microprobe Structures Incorporating Dielectrics | 07-07-2016 |
20160196926 | DYE-SENSITIZED SOLAR CELL INCLUDING A POROUS INSULATION SUBSTRATE AND A METHOD FOR PRODUCING THE POROUS INSULATION SUBSTRATE | 07-07-2016 |
20160199833 | NANOFLUIDIC CHANNELS WITH GRADUAL DEPTH CHANGE FOR REDUCING ENTROPIC BARRIER OF BIOPOLYMERS | 07-14-2016 |
20160251531 | CONDUCTIVE COMPOSITION FOR THIN FILM PRINTING AND METHOD FOR FORMING THIN FILM CONDUCTIVE PATTERN | 09-01-2016 |
20160251805 | PAPER ESPECIALLY FOR PRINTING AN ELECTROCONDUCTIVE LAYER | 09-01-2016 |
20160254104 | HIGH VOLTAGE EDLC CELL AND METHOD FOR THE MANUFACTURE THEREOF | 09-01-2016 |
20160254524 | ROTARY SCREEN PLATE AND METHOD OF MANUFACTURING SECONDARY BATTERY | 09-01-2016 |
20160380253 | METHOD FOR MANUFACTURING AN ELECTRODE PARTICULARLY FOR ELECTROCHEMICAL ENERGY STORAGE DEVICES, AS WELL AS AN ELECTRODE AND AN ELECTROCHEMICAL ENERGY STORAGE DEVICE - A method for manufacturing an electrode comprises the steps of applying a suspension of a suspension medium containing a solvent and electrically conductive carbon allotropes on a substrate, generating an electric field that penetrates the suspension and has a predefined field direction in order to align the carbon allotropes in the field direction, and removing the solvent from the suspension medium in order to harden the suspension in the aligned state of the carbon allotropes. A thusly manufactured electrode leads to a higher capacity, a higher charging and discharging rate, i.e. the delivery of a higher electric current, as well as shorter charging and discharging times of secondary batteries. | 12-29-2016 |
20160380401 | Lubricating method - A method of coating and installing electrical connectors into a receptacle employing a handheld container filled with an open cell, microcellular foam saturated with a liquid lubricant, especially where the electrical connectors are in the base of a CFL light bulb. | 12-29-2016 |
20180021803 | FLUID DISCHARGE DEVICE, FLUID DISCHARGE METHOD, AND FLUID APPLICATION DEVICE | 01-25-2018 |
20180025931 | PROCESSED WAFER AS TOP PLATE OF A WORKPIECE CARRIER IN SEMICONDUCTOR AND MECHANICAL PROCESSING | 01-25-2018 |
20220134379 | Die For Coating Insulating Liquid And Method For Coating Insulating Liquid - A die for coating an insulating liquid may include a die body configured to be positioned on a current collector with a certain space and discharge an insulating liquid; and a discharge portion configured to be formed on one surface where the insulating liquid of the die body is discharged, and form a discharge path and a discharge port where the insulating liquid is discharged, wherein the discharge portion includes a first discharge portion positioned at a front region side of a coating direction of the insulating liquid, and a second discharge portion positioned at a rear region side of the coating direction of the insulating liquid, an insulating liquid discharge path is formed between the first discharge portion and the second discharge portion, and an insulating liquid discharge port is formed between an end of the first discharge portion and an end of the second discharge portion. | 05-05-2022 |