Patent application number | Description | Published |
20080314288 | Mixture For Doping Semiconductors - A doping mixture for coating semiconductor substrates which are then subjected to a high temperature treatment to form a doped layer includes at least one p- or n-dopant, water and a mixture of two or more surfactants. At least one of the surfactants is nonionic. Also provided are a method for producing such a doping mixture and the use thereof. | 12-25-2008 |
20100136768 | METHOD FOR SIMULTANEOUS DOPING AND OXIDIZING SEMICONDUCTOR SUBSTRATES AND THE USE THEREOF - The invention relates to a method for simultaneous doping and oxidizing semiconductor substrates and also to doped and oxidized semiconductors substrates produced in this manner. Furthermore, the invention relates to the use of this method for producing solar cells. | 06-03-2010 |
20100213166 | Process and Device for The Precision-Processing Of Substrates by Means of a Laser Coupled Into a Liquid Stream, And Use of Same - The invention relates to a method for precision processing of substrates in which a liquid jet which is directed towards a substrate surface and contains a processing reagent is guided over the regions of the substrate to be processed, a laser beam being coupled into the liquid jet. Likewise, a device which is suitable for implementation of the method is described. The method is used for different process steps in the production of solar cells. | 08-26-2010 |
20110092074 | Texturing and cleaning agent for the surface treatment of wafers and use thereof - A liquid agent for the surface treatment of monocrystalline wafers, which contains an alkaline etching agent and also at least one low-volatile organic compound. Systems of this type can be used both for the cleaning, damage etch and texturing of wafer surfaces in a single etching step and exclusively for the texturing of silicon wafers with different surface quality, whether it now be wire-sawn wafers with high surface damage or chemically polished surfaces with minimum damage density. | 04-21-2011 |
20110139241 | SOLAR CELL AND METHOD FOR PRODUCING A SOLAR CELL - A solar cell and to a method for producing a solar cell is provided. The solar cell includes a semi-conductor substrate with doped regions ( | 06-16-2011 |
20110155239 | SOLAR CELL AND METHOD FOR THE PRODUCTION THEREOF - A solar cell having a semiconductor substrate with a front face and a rear face extending substantially parallel thereto, a front face metallization, a rear face metallization and at least three doped regions having at least two different conductivity types, including: a first doped region with a first conductivity type located on the front face of the semiconductor substrate and extends substantially over the entire front face; a second doped region with the opposite conductivity type to that of the first conductivity type located on the rear face and extends partially over said face; and a third doped region with the first conductivity type located on the rear face and extends partially over said face. The front face metallization is connected to the first doped region and the rear face metallization is connected to the second doped region in an electrically conductive manner and the solar cell has an electrically conductive connection which connects the third doped region to the front face metallization and/or the first doped region. | 06-30-2011 |
20110174355 | SOLAR CELL AND SOLAR CELL MODULE WITH ONE-SIDED CONNECTIONS - A solar cell, in particular for connecting to a solar cell module, including at least one metallic base contact, at least one metallic emitter contact ( | 07-21-2011 |
20110177651 | METHOD FOR PRODUCING A METAL STRUCTURE ON A SURFACE OF A SEMICONDUCTOR SUBSTRATE - A method for producing a metal structure on a surface of a semiconductor substrate, including the following steps: A applying a metal layer, B applying a structuring layer and C removing the structuring layer. Either step B is carried out after step A, and step C after step B in a masking method, so that the structuring layer covers the metal layer at least partially and, after step B is carried out, the metal layer is removed from the regions not covered by the structuring layer, before step C is carried out or, in a lift-off method, step A is carried out after step B, and step C after step A, so that the structuring layer is covered essentially by the metal layer and, at least in the regions, in which the metal layer covers the structuring layer, the metal layer is detached when step C is carried out. It is essential that the structuring layer in step B is produced by a hot melt ink. | 07-21-2011 |
20110233711 | METHOD FOR LOCAL CONTACTING AND LOCAL DOPING OF A SEMICONDUCTOR LAYER - A method for local contacting and local doping of a semiconductor layer including the following process steps: A) Generation of a layer structure on the semiconductor layer through i) application of at least one intermediate layer on one side of the semiconductor layer, and ii) application of at least one metal layer onto the intermediate layer last applied in step i), wherein the metal layer at least partly covers the last applied intermediate layer, B) Local heating of the layer structure in such a manner that in a local region a short-time melt-mixture of at least partial regions of at least the layers: metal layer, intermediate layer and semiconductor layer, forms. After solidification of the melt-mixture, a contacting is created between metal layer and semiconductor layer. It is essential that in step A) i) at least one intermediate layer designed as dopant layer is applied, which contains a dopant wherein the dopant has a greater solubility in the semiconductor layer than the metal of the metal layer. | 09-29-2011 |
20110272020 | SOLAR CELL AND METHOD FOR PRODUCING A SOLAR CELL FROM A SILICON SUBSTRATE - A method for producing a solar cell from a silicon wafer, including the following process steps: A) texturizing one side of the silicon substrate ( | 11-10-2011 |
20120074971 | MEASURING DEVICE FOR ELECTRICALLY MEASURING A FLAT MEASUREMENT STRUCTURE THAT CAN BE CONTACTED ON ONE SIDE - A measuring device for electrically measuring a measurement structure that can be electrically contacted at one measuring side, in particular an optoelectronic element, such as a solar cell, including at least two contacting units for electrically contacting the measurement structure and at least one support element for supporting the measurement structure with the measuring side on the support element. It is essential that the measuring device includes at least one suction line for the connection to the suction unit and at least one suction opening that is connected in a fluid-conducting manner to the suction line, wherein the suction opening is arranged in and/or on the support element such that the measurement structure can be pressed against the support element by suctioning via the suction opening. When the measurement structure rests on the support element, the contacting unit can be pressed against the measuring side of the measurement structure for the electrical contacting thereof. | 03-29-2012 |
20130095595 | METHOD FOR PRODUCING A PHOTOVOLTAIC SOLAR CELL - A method for producing a photovoltaic solar cell, including the following steps: A. texturizing a front ( | 04-18-2013 |
20130095604 | METHOD FOR PRODUCING A METAL CONTACT STRUCTURE OF A PHOTOVOLTAIC SOLAR CELL - A method for producing a metal contact structure of a photovoltaic solar cell, including: applying an electrically non-conductive insulating layer to a semiconductor substrate, applying a metal contact layer to the insulating layer, and generating a plurality of local electrically conductive connections between the semiconductor substrate and the contact layer right through the insulating layer. The metal contact layer is formed using two pastes containing metal particles: the first paste containing metal particles is applied to local regions, and the second paste containing metal particles is applied covering at least the regions covered with the first paste and partial regions located therebetween. By global heating the semiconductor substrate the first paste penetrates the insulating layer and forms an electrically conductive contact directly with the semiconductor substrate, whereas the second paste does not penetrate the insulating layer and is electrically conductively connected to the semiconductor substrate via the first paste. | 04-18-2013 |
20130112262 | PHOTOVOLTAIC SOLAR CELL AND METHOD FOR PRODUCING A PHOTOVOLTAIC SOLAR CELL - The invention relates to a method for producing a photovoltaic solar cell having a front side designed for coupling in light, comprising the following method steps: A Producing a plurality of cutouts in a semiconductor substrate of a base doping type, B Producing one or more emitter regions of an emitter doping type at least at the front side of the semiconductor substrate, wherein the emitter doping type is opposite to the base doping type, C Applying an electrically insulating insulation layer and D Producing metallic feed through structures in the cutouts, at least one metallic base contact structure at the rear side of the solar cell, which is formed in an electrically conductive manner with the semiconductor substrate in a base doping region, at least one metallic front-side contact structure at the front side of the solar cell, which is formed in an electrically conductive manner with the emitter region at the front side of the semiconductor substrate, and at least one rear-side contact structure at the rear side of the solar cell, which is formed in a manner electrically conductively connected to the feed through contact structure. The invention is characterized in that in method step B and/or a further method step in addition a feed through emitter region of the emitter doping type extending from the front side to the rear side is formed in each case in the semiconductor substrate on the walls of the cutouts, in that in method step C the insulation layer is applied in a manner covering the rear side of the semiconductor substrate, if appropriate further intervening intermediate layers, in that in method step D the rear-side contact structure is applied to the insulation layer, if appropriate to further intermediate layers, in such a way that the rear-side contact structure extends to regions of the semiconductor substrate having base doping and, in these regions, on account of the intervening insulation layer, an electrical insulation is formed between rear-side contact structure and semiconductor substrate, and the base contact structure is applied to the insulation layer, if appropriate to further intermediate layers, in such a way that the base contact structure penetrates through the insulation layer at least in regions, such that an electrically conductive connection is produced between base contact structure and semiconductor substrate. The invention furthermore relates to a photovoltaic solar cell. | 05-09-2013 |
20130157401 | METHOD FOR PRODUCING A SELECTIVE DOPING STRUCTURE IN A SEMICONDUCTOR SUBSTRATE IN ORDER TO PRODUCE A PHOTOVOLTAIC SOLAR CELL - A method for producing a selective doping structure in a semiconductor substrate in order produce a photovoltaic solar cell. The method includes the following steps: A) applying a doping layer ( | 06-20-2013 |
20130224906 | METHOD AND DEVICE FOR PRODUCING A METALLIC CONTACT STRUCTURE FOR MAKING ELECTRICAL CONTACT WITH A PHOTOVOLTAIC SOLAR CELL - A method for producing a metallic contact structure for making electrical contact with a photovoltaic solar cell, wherein, in order to create the contact structure, a paste, which contains metal particles, is applied to a surface of a carrier substrate via at least one dispensing opening, wherein the dispensing opening and the carrier substrate are moved in relation to one another during the dispensing of the paste. The paste is circulated in a circulating region, and in each case a part of the paste is branched off out of the circulating region at a plurality of branching points and each branching point is assigned at least one dispensing opening, via which the paste branched off at the branching point is applied to the surface of the carrier substrate, wherein the paste flows through a flow path having a length of less than 1 cm in each case between being branched off out of the circulating region and being dispensed from the dispensing opening assigned to the branching point. A device for producing a metallic contact structure for making electrical contact with a photovoltaic solar cell is also provided. | 08-29-2013 |
20140026936 | PHOTOVOLTAIC SOLAR CELL AND A METHOD FOR THE PRODUCTION OF SAME - A photovoltaic solar cell for converting incident electromagnetic radiation into electrical energy, including at least one base region of a base-doping type, designed in a silicon substrate; at least one emitter region of an emitter-doping type that is of an opposite doping type to the base-doping type; at least one metallic base-contacting structure connected, in an electrically conductive manner, to the base region, and at least one metallic emitter-contacting structure connected, in an electrically conductive manner, to the emitter region, the base region and emitter region being arranged in such a manner that a pn-junction is formed at least in some regions between said base and emitter regions. It is essential that the base-contacting structure overlaps the emitter region in a base-bypass region and that in said overlapping region, a diode-like semiconductor contact is designed between the base-contacting structure and the emitter region, said semiconductor contact being a metal semiconductor contact or as a metal-insulator-semiconductor contact, and/or that the emitter-contacting structure overlaps the base region in an emitter-bypass region and that in this overlapping region, a diode-like semiconductor contact is designed between the emitter-contacting structure and the base region, said semiconductor contact being a metal semiconductor contact or as a metal-insulator-semiconductor contact. The invention also relates to a method for producing a solar cell. | 01-30-2014 |
20140174500 | CONCENTRATOR SYSTEM - A concentrator system having an optical concentrator and a receiver with a carrier substrate and at least one photovoltaic solar cell. The optical concentrator and the receiver are arranged to concentrate incident electromagnetic radiation onto a front side of the solar cell. The solar cell has at least one base and at least one emitter region and at least one metallic base contact structure electrically conductively connected to the base region for external interconnection, and at least one metallic emitter contact structure is electrically conductively connected to the emitter region external contact. The base and emitter contact structures are arranged on the front side of the solar cell. At least one base back-side metallization is provided, and the solar cell has at least one metallic base via structure that extends from the base back-side metallization to the base contact structure for electrically conductive connection by the base via structure. | 06-26-2014 |