Class / Patent application number | Description | Number of patent applications / Date published |
216056000 | ETCHING TO PRODUCE POROUS OR PERFORATED ARTICLE | 30 |
20080203055 | Method of forming one or more nanopores for aligning molecules for molecular electronics - A technique is provided for forming a molecule or an array of molecules having a defined orientation relative to the substrate or for forming a mold for deposition of a material therein. The array of molecules is formed by dispersing them in an array of small, aligned holes (nanopores), or mold, in a substrate. Typically, the material in which the nanopores are formed is insulating. The underlying substrate may be either conducting or insulating. For electronic device applications, the substrate is, in general, electrically conducting and may be exposed at the bottom of the pores so that one end of the molecule in the nanopore makes electrical contact to the substrate. A substrate such as a single-crystal silicon wafer is especially convenient because many of the process steps to form the molecular array can use techniques well developed for semiconductor device and integrated-circuit fabrication. | 08-28-2008 |
20080230517 | THIN FILM SUPPORT SUBSTRATE FOR USE IN HYDROGEN PRODUCTION FILTER AND PRODUCTION METHOD OF HYDROGEN PRODUCTION FILTER - In a through hole closing process, a metal plate is attached to one surface of a conductive base member having a plurality of through holes by the use of a magnet, in a copper plating process, a copper plating layer is formed on the conductive base member and the metal plate exposed within the through holes, from the side of the conductive base member where the metal plate is not attached, thereby to fill up the through holes, in a film forming process, a Pd alloy film is formed by plating on the surface of the conductive base member after removal of the metal plate, and in a removal process, the copper plating layer is removed by selective etching, thereby to produce a hydrogen production filter that is used in a reformer a fuel cell so as to be capable of stably producing high purity hydrogen gas. | 09-25-2008 |
20080277380 | PROCESSES AND APPARATUSES FOR PRODUCING POROUS MATERIALS - Processes and apparatuses for producing a porous material, such as nano-porous silicon (npSi) media suitable for storage and retrieval of elemental hydrogen. Processes of this invention generally entail applying a magnetic field to a substrate that contains charge carriers and is in contact with an etchant, and then etching the substrate with the etchant while relative movement occurs between the substrate and the magnetic field. During etching, the charge carriers move relative to the substrate and the magnetic field, and porosity forms at surfaces of the substrate contacting the etchant. | 11-13-2008 |
20080283497 | Method for producing air gaps using nanotubes - A target layer comprising at least one degradable material is deposited on a support. Nanotubes are then formed on the degradable material of the target layer before deposition of an insulating layer is performed. Degradation of the degradable material and elimination of degradation sub-products are then performed by means of the nanotubes passing through the insulating layer thus forming air gaps in the target layer. | 11-20-2008 |
20090212013 | METHOD FOR MANUFACTURING ELECTRODE FOIL - A method of manufacturing a electrode foil composed of a valve metal layer of a first valve metal and a metal foil of a second valve metal supporting the valve metal layer, the method includes coating fine particles of the first valve metal with a resin to form composite fine particles, forming the composite fine particles into an aerosol, jetting the aerosol to the metal foil in an atmosphere under a reduced pressure, depositing the composite fine particles onto the metal foil to form a aerosol deposition layer, and removing selectively the resin from the aerosol deposition layer to form the valve metal layer. | 08-27-2009 |
20090266791 | IMPLANT SURFACES AND TREATMENTS FOR WEAR REDUCTION - Methods and devices directed to surface treatment of implants are disclosed. In some instances, the surfaces are treated to have one or more characteristics that can impart low wear properties when the implant is utilized in a subject. As one example, a metallic surface of an implant can be treated to form pits in the surface, followed optionally by a smoothing step to reduce the roughness of the pitted surface. A plasma treatment can be used to form an oxide-containing layer (e.g., highly corrosion resistant and/or thick) on the surface. An acid treatment can also be used as part of a process for forming an oxide-containing layer. Other examples of method are also disclosed, along with characteristics of implant surfaces that can exhibit low wear properties. | 10-29-2009 |
20100051583 | METHOD FOR PREPARING POROUS MATERIAL USING NANOSTRUCTURES AND POROUS MATERIAL PREPARED BY THE SAME - Disclosed herein is a method for preparing a porous material using nanostructures. The method comprises the steps of producing nanostructures using a porous template, dispersing the nanostructures in a source or precursor material for the porous material, aligning the nanostructures in a particular direction, and removing the nanostructures by etching. According to the method, the size, shape, orientation and regularity of pores of the porous material can be easily controlled, and the preparation of the porous material is simplified, leading to a reduction in preparation costs. | 03-04-2010 |
20100147800 | METHOD OF MAKING FORAMINOUS MICROSTRUCTURES - A foraminous microstructure or film that has photonic or plasmonic properties is made by forming a structure or film composed of at least two constituent materials so that the compositional ratio of the constituent materials varies in a depth direction of the structure, and then removing one of the materials from the structure. | 06-17-2010 |
20110108523 | Method for Fabrication of Microparticles with Colloidal Particle-Anchored Surface Structures - A method for fabrication of microparticles using a photo-polymerizable colloidal dispersant is provided. The method includes (a) preparing liquid droplets in a continuous phase from photo-polymerizable resin containing colloidal particles dispersed therein, then, allowing the colloidal particles to move toward an interface of the liquid droplets; and (b) UV exposing the liquid droplets to enable photo-polymerization thereof, so as to produce microparticles having a structure formed of colloidal particles on a surface of the microparticles. In addition, in order to improve the surface structure and characteristics, the foregoing method further includes (c) selective chemical reaction of the colloidal particles formed on the surface of the microparticles or, otherwise, removal of the colloidal particles. | 05-12-2011 |
20110315660 | METHOD FOR RECYCLING OF SILICA WASTE AND METHOD FOR PREPARING NANOPOROUS OR SPHERICAL MATERIALS - Disclosed are a method for recycling silica waste and a method for preparing nanoporous material and other valuable silica materials. More specifically, a method for preparing a nanoporous material by recycling silica-containing waste produced from a silica etching process in the synthesis of nanoporous carbon is provided. The present disclosure allows recycling of silica waste in an effective and environment-friendly manner, reduction of consumption of chemical materials, and reduction of chemical waste. Accordingly, the present disclosure enables effective preparation of various valuable nanoporous silica and other silica materials from silica waste released for production of various nanoporous materials. | 12-29-2011 |
20120043299 | METHOD FOR MANUFACTURING COMPOSITE OF METAL AND RESIN - A method for manufacturing a composite of metal and resin including following steps: providing a metal piece; cleaning the metal piece in a degreasing agent solution; etching the surface of the metal piece by focused ion beam to form a pattern of nanopores; inserting the metal piece into a mold and heating the metal piece to reach a temperature in a range of 100° C. to 350° C.; and injecting molten resin material on the metal piece. The resin material is combined with the metal piece when the resin material is cool. | 02-23-2012 |
20120061349 | METHOD FOR CORRECTING CRITICAL DIMENSION OF PHASE SHIFT MASK AND METHOD FOR MANUFACTURING THE SAME - A method for correcting the critical dimension (CD) of a phase shift mask includes calculating an intensity slope quantifying a slope of an intensity waveform of secondary electrons emitted by scanning an electron beam spot to a hard mask pattern on a phase shift mask on a substrate, extracting a delta critical dimension (CD) value, which is equal to a CD difference between the phase shift pattern and the hard mask pattern, as a delta CD value corresponding to the intensity slope, and correcting the CD of the phase shift mask by using the extracted delta CD value. | 03-15-2012 |
20120085734 | Extendible Stent Apparatus - An expandable stent includes a tubular structure with an outer surface positionable adjacent to a vessel wall and an inner surface facing a lumen of a body passageway. The tubular structure further includes a plurality of expansion struts, connector struts and cells. The tubular structure has a first diameter which permits intraluminal delivery of the tubular structure into the body passageway, and a second expanded and deformed diameter which is achieved upon the application of a radially, outwardly extending force. A plurality of cavities are formed in the outer surface of the stent. | 04-12-2012 |
20120234794 | DIE FOR MOTH-EYE, AND METHOD FOR PRODUCING DIE FOR MOTH-EYE AND MOTH-EYE STRUCTURE - A mold of an embodiment of the present invention has a surface that has a shape which is inverse of a surface shape of a moth-eye structure. This surface has a plurality of protrusions, a plurality of ridges extending between the plurality of protrusions via saddle portions, and a plurality of holes, each of which is defined by at least any three of the plurality of protrusions and ridges extending between the at least any three of the plurality of protrusions, and an average distance between centers of adjacent holes, p, and an average depth of the saddle portions, r, satisfy the relationship of 0.15≦r/p≦0.60. | 09-20-2012 |
20120273461 | COVER TAPE AND METHOD FOR MANUFACTURE - An article includes a cover tape, which includes a base film layer, tear enabling features, and an adhesive. The base film layer has opposed longitudinal edges and top and bottom surfaces. The tear enabling features are substantially parallel to the longitudinal edges and at the top and bottom surfaces. | 11-01-2012 |
20120298625 | NANOPOROUS MEMBRANE AND MANUFACTURING METHOD THEREOF - In the present invention, a nanoporous membrane having a columnar structure is manufactured through a deposition technology used in a semiconductor process, and the size of a nanopore is adjusted by etching the lower surface of the manufactured nanoporous membrane or using a seed layer and a nanobead layer so that scaling up is available at a lowered process temperature and the size of the nanopore can be easily adjusted when manufacturing the nanoporous membrane having a columnar structure. | 11-29-2012 |
20130068725 | METHOD OF PRODUCING POROUS GLASS - Provided is a method of producing a porous glass, including selectively etching a phase-separated glass with an acid solution, in which the method allows a processing time to be shortened and suppresses gel-like silica from remaining and being deposited in pores of a porous portion. The method of producing a porous glass includes: immersing the phase-separated glass in a bath containing an acid solution; setting an angle θ, which is formed by a surface to be porosified of the phase-separated glass and a bath liquid surface, to 10° or more to 90° or less; and irradiating the bath with an ultrasonic wave to etch the phase-separated glass, thereby obtaining the porous glass. | 03-21-2013 |
20130206724 | GENERATION OF HOLES USING MULTIPLE ELECTRODES - An apparatus for producing holes in dielectric workpieces in the form of thin sheets and substrates, in particular of glass or glass-like materials and semiconductors is provided. The apparatus includes individual high-voltage electrodes that are symmetrically arranged on an electrode holder around the hole to be produced in the workpiece. The apparatus also includes individual counter electrodes that are arranged on a counter electrode holder. The electrodes and counter electrodes can be connected in a permutating manner to a high-voltage source for the discharge of high-voltage flashovers. | 08-15-2013 |
20130220974 | MICROPOROUS CARBONS WITH ALIGNED PORES FOR SUPERCAPACITORS - A microporous carbon matrix material composition for use in supercapacitor electrodes may be produced by depositing carbon on a sacrificial zeolite template via one of several methods (e.g., hydrothermal or solvo-thermal deposition, sub-atmospheric vapor phase deposition, or high-pressure infiltration of hydrocarbon vapors). The deposition produces a carbon-coated zeolite intermediary. A surface layer of carbon formed on the carbon-coated zeolite intermediary may then be refined and the refined carbon-coated zeolite intermediary may be etched to produce a microporous carbon matrix having a substantially uniform structure and substantially aligned pores. In some embodiments, the carbon-coated zeolite intermediary may be annealed after deposition. | 08-29-2013 |
20140008323 | ABSORPTION CELL MANUFACTURING METHOD - A manufacturing method of an absorption cell includes preparing a first absorption layer formed of a mixture of a first absorbent and a second absorbent having a higher density than the first absorbent; coating the surface of the first absorption layer with a protective layer formed of a low-carbonizing point material and the second absorbent so as to prevent generation of dust particles from the first absorption layer; and removing the low-carbonizing point material from the protective layer so as to form a second absorption layer including a plurality of pore parts through which a fluid flows to the first absorption layer. | 01-09-2014 |
20140263178 | METHODS FOR CHEMICAL REACTION PERFORATION OF ATOMICALLY THIN MATERIALS - A method for forming a lattice with precisely sized holes includes disposing cutter molecules with species attached about the periphery of each molecule on to the lattice. The method continues with the species cutting molecular bonds of the lattice so as to form precisely sized holes in the lattice. The edges of the holes may then be functionalized. | 09-18-2014 |
20140284306 | METHOD FOR MANUFACTURING POROUS STRUCTURE AND METHOD FOR FORMING PATTERN - A pattern forming material contains a block copolymer or graft copolymer and forms a structure having micro polymer phases, in which, with respect to at least two polymer chains among polymer chains constituting the block copolymer or graft copolymer, the ratio between N/(Nc−No) values of monomer units constituting respective polymer chains is 1.4 or more, where N represents total number of atoms in the monomer unit, Nc represents the number of carbon atoms in the monomer unit, No represents the number of oxygen atoms in the monomer unit. | 09-25-2014 |
20150076109 | PROTECTION OF POROUS SUBSTRATES BEFORE TREATMENT - A method is provided for treating a surface of a porous material in an environment, the method comprising the steps of contacting a porous material with an organic gas in an environment having a pressure P | 03-19-2015 |
20150136733 | MULTIPLE WALLED NESTED COAXIAL NANOSTRUCTURES - Multiple walled nested coaxial nanostructures, methods for making multiple walled nested coaxial nanostructures, and devices incorporating the coaxial nanostructures are disclosed. The coaxial nanostructures include an inner nanostructure, a first outer nanotube disposed around the inner nanostructure, and a first annular channel between the inner nanostructure and the first outer nanotube. The coaxial nanostructures have extremely high aspect ratios, ranging from about 5 to about 1,200, or about 300 to about 1200. | 05-21-2015 |
20150328023 | Hollow Drug-Filled Stent and Method of Forming Hollow Drug-Filled Stent - A stent is formed from a wire that in cross-section includes an outer member having a lumen and a radiopaque core member partially filling the lumen. A substance for elution through openings formed through the outer member fills the portion of the lumen not filled by the radiopaque core member. In a method of forming the stent, a composite wire including an outer member and a dual core member is shaped into a stent pattern. The dual core member includes a first core member and a second, radiopaque core member. The shaped composite wire is processed to remove the first core member from the outer member without adversely affecting the outer member and the second core member. The portion of the lumen that was occupied by the first core member may be filled with a substance for elution through openings from through the outer member to the lumen. | 11-19-2015 |
20160067891 | SYSTEM AND METHOD FOR 3D PRINTING OF AEROGELS - A method of forming an aerogel. The method may involve providing a graphene oxide powder and mixing the graphene oxide powder with a solution to form an ink. A 3D printing technique may be used to write the ink into a catalytic solution that is contained in a fluid containment member to form a wet part. The wet part may then be cured in a sealed container for a predetermined period of time at a predetermined temperature. The cured wet part may then be dried to form a finished aerogel part. | 03-10-2016 |
20160075845 | Membrane formulation of fluorinated copolymer porous membrance and preparing method thereof - A membrane formulation of fluorinated copolymer porous membrane includes: 15-50 wt % ethylene-chlorotrifluoroethylene copolymer, 30-85 wt % diluent and 0-20 wt % composite pore-forming agent, totally 100 wt %; wherein the diluent is selected from a group consisting of di-isooctyladinpate, di-isooctyladinpate with dibutyl phthalate, diethyl phthalate and dioctyl phthalate with any proportion. Methods for preparing a fluorinated copolymer porous flat membrane and a fluorinated copolymer hollow fiber porous membrane with the above formulation are also provided. With the formulation, a membrane-forming temperature is reduced to below 200° C., and processes thereof are convenient. Furthermore, membrane mechanical property is excellent, porosity is high, permeability is sufficient, and the method is suitable for membrane separation under severe conditions such as acid-base mediums and organic solvents. | 03-17-2016 |
20160107925 | METHODS FOR FORMING VIAS IN GLASS SUBSTRATES - Methods for forming vias in glass substrates by laser drilling and acid etching are disclosed. In one embodiment, a method forming a via in a glass substrate includes laser drilling the via through at least a portion of a thickness of the glass substrate from an incident surface of the glass substrate. The method further includes etching the glass substrate for an etching duration to increase a diameter of an incident opening of the via and applying ultrasonic energy to the glass substrate during at least a portion of the etching duration. The applied ultrasonic energy has a frequency between 40 kHz and 192 kHz. | 04-21-2016 |
20160199787 | NANOPOROUS SILICON NITRIDE MEMBRANES, AND METHODS FOR MAKING AND USING SUCH MEMBRANES | 07-14-2016 |
20160200632 | Method of Making Nanoporous Structures | 07-14-2016 |