Patent application number | Description | Published |
20100288351 | THIN-FILM SOLAR CELL - The thin-film solar cell includes at least one Na | 11-18-2010 |
20100288361 | THIN-FILM SOLAR CELL AND PROCESS FOR PRODUCING A THIN-FILM SOLAR CELL - The thin-film solar cell includes at least one Na | 11-18-2010 |
20110039079 | STRUCTURED SUBSTRATE GLASS FOR LED'S AND METHOD FOR PRODUCTION THEREOF - A composite material designed as a substrate glass for LED's is provided. The composite material includes a structured coating made of a hybrid polymer matrix that contains nanoparticles made of an oxide. | 02-17-2011 |
20110045259 | SUBSTRATE GLASS FOR LEDS WITH LAYER CONTAINING SCATTERING PARTICLES AND METHOD FOR PRODUCTION THEREOF - A composite material for LED's is provided. The composite material has a coating comprising scattering particles with an index of refraction greater than 1.6. | 02-24-2011 |
20120128938 | ETCHING METHOD FOR SURFACE STRUCTURING - An etching method for selective introduction of structures into surfaces of different substrates, such as glass or glass ceramic substrates, is provided. The method provides for surface structuring using an etch mask. The etchmask allows for the production of very fine structures on the substrate surfaces using liquid etching media. In this method the etch mask is produced on the substrate. | 05-24-2012 |
20120157290 | HIGH PERFORMANCE GLASS CERAMICS AND METHOD FOR PRODUCING HIGH-PERFORMANCE GLASS CERAMICS - The invention relates to a glass ceramic comprising article, wherein the integral, non-post-processed and non-reworked glass ceramic comprising article comprises at least three different types of microstructures. The microstructures differ in the number and/or size of the crystallites contained per unit volume, and/or in the composition of the crystallites, and/or in the composition of the residual glass phases. The different microstructures are characterized by different relative ion content profiles across a cross-section perpendicular to the transition areas. The relative ion content profiles are determined from intensities which are determined using secondary ion mass spectrometry, and each of the three different types of microstructures preferably has different intensity plateaus for individual ions, wherein the individual ions are components of the main crystal phases. | 06-21-2012 |
20120295081 | COMPOSITE MATERIAL AND METHOD FOR PRODUCING SAME - A method for producing a glass or glass ceramic composite material is provided. The method includes: providing a glass or glass ceramic substrate with a coefficient of thermal expansion of α≦5*10 | 11-22-2012 |
20130034702 | COMPOSITE AND METHOD FOR THE PRODUCTION THEREOF - A composite is provided that has a structured sol-gel layer on a substrate. The sol-gel layer is extremely resistant against mechanical stress and other influences from outside due to its production method. The composite is suitable for use in a lot of technical fields, since the sol-gel layer can be provided with nearly any arbitrary structure. For example, the structure may result in optical effects and may be used in optical systems. | 02-07-2013 |
20130040116 | METHOD FOR PRODUCING A PANE WITH A PATTERNED SURFACE, AND PANE HAVING A PATTERNED SURFACE - A method for producing a pane of a household appliance or a viewing window of an oven is provided. The method includes the steps of: providing a substrate; applying a sol-gel layer to the substrate; embossing a haptically perceptible pattern using an embossing tool in the sol-gel layer; and curing the sol-gel layer. A pane of a household appliance or piece of furniture is also provided that includes a glass or glass-ceramic substrate with a patterned sol-gel layer which has a haptically perceptible pattern. | 02-14-2013 |
20130183487 | GLASS OR GLASS-CERAMIC COMPOSITE MATERIAL AND METHOD FOR PRODUCING SAME - A method for producing a glass or glass ceramic composite material with a metallic decorative appearance is provided. The method includes: applying a layer onto a glass or glass ceramic substrate, the layer comprising a sol-gel and/or a polysiloxane; patterning the layer; and applying a metallic-looking layer onto the patterned layer. | 07-18-2013 |
20140213044 | METHOD FOR PRODUCING PERIODIC CRYSTALLINE SILICON NANOSTRUCTURES - A method for producing periodic crystalline silicon nanostructures of large surface area by: generating a periodic structure having a lattice constant of between 100 nm and 2 μm on a substrate, the substrate used being a material which is stable at up to at least 570° C., and the structure being produced with periodically repeating shallow and steep areas/flanks, and, subsequently, depositing silicon by directed deposition onto the periodically structured substrate, with a thickness in the range from 0.2 to 3 times the lattice constant, or 40 nm to 6 μm, at a substrate temperature of up to 400° C., followed by thermally treating the deposited Si layer to effect solid-phase crystallization, at temperatures between 570° C. and 1400° C., over a few minutes up to several days, and optionally subsequently wet-chemically selective etching to remove resultant porous regions of the Si layer. | 07-31-2014 |
20150191392 | GLASS OR GLASS-CERAMIC COMPOSITE MATERIAL AND METHOD FOR PRODUCING SAME - A method for producing a glass or glass ceramic composite material with a metallic decorative appearance is provided. The method includes: applying a layer onto a glass or glass ceramic substrate, the layer comprising a sol-gel and/or a polysiloxane; patterning the layer; and applying a metallic-looking layer onto the patterned layer. | 07-09-2015 |
Patent application number | Description | Published |
20100227773 | Device and method for determining multiple analytes - A device includes a planar optical waveguide, as part of a sensor platform, and, connected to the platform directly or by means of a sealing medium, a sealing layer. The sealing layer forms either directly or by means of a sealing medium a tightly sealing layer. The sealing layer includes a multitude of recesses at least open towards the sensor platform, which form a corresponding multitude of sample compartments in a 2-dimensional arrangement. Each of the sample compartments has different biological or biochemical recognition elements, for the specific recognition and binding of different analytes, immobilized in five or more discrete measurement areas, wherein the measurement areas are in optical interaction with excitation light emanating from the optical waveguide, as part of the sensor platform which forms a demarcation of the sample compartments, and wherein the sample compartments are operable to be cleared from received sample or reagent solutions and to then receive, optionally without washing steps, further sample or reagent solutions, which are supplied to the same sample compartments. | 09-09-2010 |
20100280601 | Method for precipitating mono and multiple layers of organophosphoric and organophosphonic acids and the salts thereof in addition to use thereof - The invention relates to a method for precipitating mono or multiple layers of a mixture of organophosphoric acids of the general formula I (A) | 11-04-2010 |
Patent application number | Description | Published |
20080212070 | KIT AND METHOD FOR MULTI-ANALYTE DETERMINATION - The invention is related to different embodiments of a kit for the simultaneous qualitative and/or quantitative determination of a multitude of analytes comprising
| 09-04-2008 |
20080299008 | Flow cell array and the utilization thereof for multianalyte determination - A one- or two-dimensional arrangement of flow cells is provided, as part of an array of sample compartments, with at least one inlet and outlet for each sample compartment, formed by a base plate and a body, with an arrangement of spatial recesses corresponding to the (geometrical) arrangement of the sample compartments, combined with the base plate. The arrangement allows for supplying to or removing from the sample compartments, which can be arranged at a high quantity on a small base area, even very small amounts of samples or reagents. An arrangement of one or more sample compartments includes a base plate and a body combined with the base plate in such a way that one or more recesses for generation of one or more flow cells fluidically sealed against one another, each with at least one inlet and one outlet, are formed between the base plate and the body, wherein at least one outlet of each flow cell is joined with a reservoir fluidically connected with the flow cell, the reservoir being operable to receive liquid exiting the flow cell, besides methods for its manufacturing and their use. | 12-04-2008 |
20090061506 | Method for precipitating mono and multiple layers of organophosphoric and organophosphonic acids and the salts thereof in addition to use thereof - The invention relates to a method for precipitating mono or multiple layers of organophosphoric acids of the general formula I (A) | 03-05-2009 |
20100130370 | FLOW CELL ARRAY AND THE UTILIZATION THEREOF FOR MULTIANALYTE DETERMINATION - A one- or two-dimensional arrangement of flow cells is provided, as part of an array of sample compartments, with at least one inlet and outlet for each sample compartment, formed by a base plate and a body, with an arrangement of spatial recesses corresponding to the (geometrical) arrangement of the sample compartments, combined with the base plate. The arrangement allows for supplying to or removing from the sample compartments, which can be arranged at a high quantity on a small base area, even very small amounts of samples or reagents. An arrangement of one or more sample compartments includes a base plate and a body combined with the base plate in such a way that one or more recesses for generation of one or more flow cells fluidically sealed against one another, each with at least one inlet and one outlet, are formed between the base plate and the body, wherein at least one outlet of each flow cell is joined with a reservoir fluidically connected with the flow cell, the reservoir being operable to receive liquid exiting the flow cell, besides methods for its manufacturing and their use. | 05-27-2010 |
20100227773 | Device and method for determining multiple analytes - A device includes a planar optical waveguide, as part of a sensor platform, and, connected to the platform directly or by means of a sealing medium, a sealing layer. The sealing layer forms either directly or by means of a sealing medium a tightly sealing layer. The sealing layer includes a multitude of recesses at least open towards the sensor platform, which form a corresponding multitude of sample compartments in a 2-dimensional arrangement. Each of the sample compartments has different biological or biochemical recognition elements, for the specific recognition and binding of different analytes, immobilized in five or more discrete measurement areas, wherein the measurement areas are in optical interaction with excitation light emanating from the optical waveguide, as part of the sensor platform which forms a demarcation of the sample compartments, and wherein the sample compartments are operable to be cleared from received sample or reagent solutions and to then receive, optionally without washing steps, further sample or reagent solutions, which are supplied to the same sample compartments. | 09-09-2010 |
20100280601 | Method for precipitating mono and multiple layers of organophosphoric and organophosphonic acids and the salts thereof in addition to use thereof - The invention relates to a method for precipitating mono or multiple layers of a mixture of organophosphoric acids of the general formula I (A) | 11-04-2010 |
Patent application number | Description | Published |
20130196633 | Programmable Communicator - A programmable communicator device is disclosed having a wireless communications circuit, including an antenna, configured to receive a transmission, and an identity module having a unique identifier. The programmable communicator further includes a processing module including program code configured to determine if the transmission is from an authenticated caller by determining whether a received transmission contains the unique identifier, and memory configured to store telephone numbers or IP addresses received in transmissions from an authenticated caller. | 08-01-2013 |
20130295883 | Programmable Communicator - A programmable communicator device is disclosed having a wireless communications circuit, including an antenna, configured to receive a transmission, and an identity module having a unique identifier. The programmable communicator further includes a processing module including program code configured to determine if the transmission is from an authenticated caller by determining whether a received transmission contains the unique identifier, and memory configured to store telephone numbers or IP addresses received in transmissions from an authenticated caller. | 11-07-2013 |
20140133406 | Programmable Communicator - A programmable communicator device is disclosed having a wireless communications circuit, including an antenna, configured to receive a transmission, and an identity module having a unique identifier. The programmable communicator further includes a processing module including program code configured to determine if the transmission is from an authenticated caller by determining whether a received transmission contains the unique identifier, and memory configured to store telephone numbers or IP addresses received in transmissions from an authenticated caller. | 05-15-2014 |
20140145844 | Programmable Communicator - A programmable communicator device is disclosed having a wireless communications circuit, including an antenna, configured to receive a transmission, and an identity module having a unique identifier. The programmable communicator further includes a processing module including program code configured to determine if the transmission is from an authenticated caller by determining whether a received transmission contains the unique identifier, and memory configured to store telephone numbers or IP addresses received in transmissions from an authenticated caller. | 05-29-2014 |
20140155037 | Programmable Communicator - A programmable communicator device is disclosed having a wireless communications circuit, including an antenna, configured to receive a transmission, and an identity module having a unique identifier. The programmable communicator further includes a processing module including program code configured to determine if the transmission is from an authenticated caller by determining whether a received transmission contains the unique identifier, and memory configured to store telephone numbers or IP addresses received in transmissions from an authenticated caller. | 06-05-2014 |
20140348070 | PROGRAMMABLE COMMUNICATOR - A technical data monitoring device for use with a wireless data monitoring network includes a wireless communications circuit, and at least one technical device/system. The technical data monitoring device establishes a wireless communication link with a programmable interface of a programmable cellular telephone. The device is also configured to send and/or receive wireless packet switched data transmissions, generate data and send data over the wireless communication link for processing by the programmable cellular telephone, and has an associated status condition. Data from the device is (1) sent to be processed and displayed by the programmable cellular telephone and/or (2) sent to be processed and forwarded by the programmable cellular telephone to an Internet website. The device forms part of the wireless data monitoring network in communication with the programmable cellular telephone. The technical device/system can be one of a number of sensors, devices, or systems. | 11-27-2014 |
20140349639 | PROGRAMMABLE COMMUNICATOR - A programmable cellular telephone device includes a programmable interface for establishing a wireless communications link with at least one monitored technical device, and a processing module for authenticating wireless transmissions sent from a programming transmitter by determining if at least one transmission contains a coded number. The device is configured to use memory to store a telephone number or IP address included within the transmission(s) if the processing module authenticates the transmission(s) by determining that the transmission includes the coded number. The stored telephone numbers/IP addresses are numbers to which the device is configured to and permitted to send outgoing wireless transmissions. The device also communicates with a remote data monitoring device and/or sends data to/receives data from an Internet web page. The device processes data received from a monitored technical device, displays the processed data, and/or to transmits the data to an Internet web page. | 11-27-2014 |