SOLOPOWER, INC. Patent applications |
Patent application number | Title | Published |
20130160824 | ROOF INTEGRATED SOLAR MODULE ASSEMBLY - A solar module having a curved surface to facilitate shedding of accumulated snow and water. The module can also be angled to achieve the same. The module includes a housing with a curved or angled upper surface and solar cells are positioned within the housing. | 06-27-2013 |
20130160823 | INTEGRATED STRUCTURAL SOLAR MODULE AND CHASSIS - A solar module having a curved surface to facilitate shedding of accumulated snow and water. The module can also be angled to achieve the same. The module includes a housing with a curved or angled upper surface and solar cells are positioned within the housing. | 06-27-2013 |
20130112564 | Electroplating Solutions and Methods For Deposition of Group IIIA-VIA Films - The embodiment described herein relate to pulse electroplating methods and solutions. | 05-09-2013 |
20130096710 | TRACKING SYSTEM AND METHOD FOR SOLAR CELL MANUFACTURING - A system and method of manufacturing solar panels whereby parameters about how each cell, each array and each panel are recorded in a database or electronic memory. The cells, arrays and panels are also provided an identification, such as a bar code, to allow for subsequent retrieval of the parameters. The electronic memory is arranged so that different cells, arrays and panels that share the same parameters can be identified. | 04-18-2013 |
20130061803 | Roll-To-Roll PVD System and Method to Manufacture Group IBIIIAVIA Photovoltaics - The present inventions provide method and apparatus that employ constituents from one or more constituent supply source or sources to form one or more films of a precursor layer formed on a surface of a continuous flexible workpiece. Of particular significance is the implementation of PVD systems that operate upon a horizontally disposed portion of a continuous flexible workpiece and a vertically disposed portion of a continuous flexible workpiece, preferably in conjunction with a short free-span zone of the portion of a continuous flexible workpiece. | 03-14-2013 |
20120325282 | SOLAR CELLS WITH GRID WIRE INTERCONNECTIONS - A plurality of solar cells is connected together in a shingled fashion. Each of the solar cells includes grid wires that are attached to an electrode of the solar cell so as to receive charge carriers produced when photons are absorbed by the solar cell. The grid wires are then interconnected with adjacent solar cells when the solar cells are shingled together. The grid wires may be applied to the solar cells via a laminate and the electrical interconnection of the grid wires may be achieved by the use of a conductive epoxy. | 12-27-2012 |
20120318319 | METHODS OF INTERCONNECTING THIN FILM SOLAR CELLS - A photovoltaic module comprises a first group of solar cells; a second group of solar cells; a first interconnection member extending across a first surface of the first group of solar cells and across a first surface of the second group of solar cells to connect the first and second groups of solar cells in parallel; and a second interconnection member extending across a second surface of the first group of solar cells and across a second surface of the second group of solar cells. | 12-20-2012 |
20120318318 | CIGS BASED THIN FILM SOLAR CELLS HAVING SHARED BYPASS DIODES - A photovoltaic module comprises a first bypass diode and a first group of solar cells connected to the first bypass diode. The first group of solar cells comprises a first solar cell, a second solar cell connected in series to the first solar cell, and a third solar cell connected in parallel to the first solar cell. | 12-20-2012 |
20120309125 | BUFFER LAYER DEPOSITION METHODS FOR GROUP IBIIIAVIA THIN FILM SOLAR CELLS - The present invention provides methods for forming a buffer layer for Group IBIIIAVIA solar cells. The buffer layer is formed using chemical bath deposition and the layer is formed in steps. A first buffer layer is formed on the absorber and the first buffer layer is then treated using etching, oxidizing, annealing or some combination thereof. Subsequently a second buffer layer is then positioned on the treated surface. Additional buffer layers can be added following treatment of the previously deposited layer. | 12-06-2012 |
20120288986 | ELECTROPLATING METHOD FOR DEPOSITING CONTINUOUS THIN LAYERS OF INDIUM OR GALLIUM RICH MATERIALS - An electrochemical deposition method to form uniform and continuous Group IIIA material rich thin films with repeatability is provided. Such thin films are used in fabrication of semiconductor and electronic devices such as thin film solar cells. In one embodiment, the Group IIIA material rich thin film is deposited on an interlayer that includes 20-90 molar percent of at least one of In and Ga and at least 10 molar percent of an additive material including one of Cu, Se, Te, Ag and S. The thickness of the interlayer is adapted to be less than or equal to about 20% of the thickness of the Group IIIA material rich thin film. | 11-15-2012 |
20120266958 | METHODS OF FORMING RUTHENIUM-GROUP IIIA ALLOYS - Described are embodiments including an apparatus that provides a thin film solar cell base structure for a photovoltaic device, a method of manufacturing a photovoltaic device, a roll to roll method of manufacturing a thin film solar cell base structure, and a ruthenium alloy sheet material. | 10-25-2012 |
20120258567 | REACTION METHODS TO FORM GROUP IBIIIAVIA THIN FILM SOLAR CELL ABSORBERS - The present invention provides a method to form Group IBIIIAVIA solar cell absorber layers on continuous flexible substrates. In a preferred aspect, the method forms a Group IBIIIAVIA absorber layer for manufacturing photovoltaic cells by providing a workpiece having a precursor layer formed over a substrate, the precursor layer including copper, indium, gallium, selenium and a dopant of a Group IA material; heating the precursor layer to a first temperature; reacting the precursor layer at the first temperature for a first predetermined time to transform the precursor layer to a partially formed absorber structure; cooling down the partially formed absorber structure to a second temperature, wherein both the first temperature and the second temperature are above 400° C.; and reacting the partially formed absorber structure at the second temperature for a second predetermined time, which is longer than the first predetermined time, to form a Group IBIIIAVIA absorber layer. | 10-11-2012 |
20120234314 | ROLL-TO-ROLL REACTOR FOR PROCESSING FLEXIBLE CONTINUOUS WORKPIECE - The present invention provides a reactor for preparing thin films of compound semiconductors for photovoltaic devices. The reactor includes a chamber that has a bottom surface that, in some locations, has protrusions that contact the bottom surface of the substrate having the compound semiconductor to provide uniform heating and cooling of the substrate. Interior walls of the chamber can also be lined with high thermal conductivity portions and low thermal conductivity portions interposed between high thermal conductivity portions. | 09-20-2012 |
20120234242 | THERMAL REACTORS WITH IMPROVED GAS FLOW CHARACTERISTICS - The present invention provides methods and systems of reacting a precursor material disposed on a continuous flexible workpiece to form a solar cell absorber. The reactor is configured to have a uniform transition in cross-sectional area from a gas inlet into a reaction space and then a uniform transition in cross-sectional area from the reaction area to a gas outlet. The uniform transition reduces gas turbulence. The continuous flexible workpiece may also be positioned on a floor that is configured to reduce turbulence adjacent the lateral edges of the continuous flexible workpiece. | 09-20-2012 |
20120199490 | ELECTROPLATING METHODS AND CHEMISTRIES FOR DEPOSITION OF GROUP IIIA-GROUP VIA THIN FILMS - An electrochemical co-deposition method and solution to plate uniform, defect free and smooth (In,Ga)—Se films with repeatability and controllable molar ratios of (In,Ga) to Se are provided. Such layers are used in fabrication of semiconductor and electronic devices such as thin film solar cells. In one embodiment, the present invention provides an alkaline electrodeposition solution that includes an In salt, a Se acid or oxide, a tartrate salt as complexing agent for the In species, and a solvent to electrodeposit an In—Se film possessing sub-micron thickness on a conductive surface. | 08-09-2012 |
20120175248 | ROLL-TO-ROLL ELECTROPLATING PHOTOVOLTAIC FILMS - The present invention provides methods of electroplating a film or films onto a top surface of a continuously moving roll-to-roll sheet. In one aspect, the invention includes continuously electroplating a film onto a conductive surface using an electroplating unit as the roll-to-roll sheet moves therethrough. | 07-12-2012 |
20120152349 | JUNCTION BOX ATTACHMENT FOR PHOTOVOLTAIC THIN FILM DEVICES - A flexible solar cell assembly having solar cells that are positioned within a sealed module chamber. A sealed wiring chamber is positioned on an end of the sealed module chamber and is interposed between the sealed module chamber and a junction box. Wiring interconnecting the junction box to the solar cells in the sealed module chamber is routed through the sealed wiring chamber to inhibit water entry into the sealed module chamber via the wiring. | 06-21-2012 |
20120152327 | METHOD OF MANUFACTURING SOLAR MODULES - A solar cell module that has a back protective sheet and a front transparent protective sheet and edge sealant members that seal an inner portion of the solar cell module so as to define a cavity that receives a plurality of solar cells. A portion of the back protective sheet extends beyond the sealant members so as to define a mounting region that can receive mounting structures such as holes, connectors, rails or the like. By providing the mounting region, the mounting structures can be spaced from the sealant members which limits the damage to the sealant members during the mounting process and preserves the moisture sealed state of the solar cell cavity. | 06-21-2012 |
20120125391 | METHODS FOR INTERCONNECTING PHOTOVOLTAIC CELLS - Two or more solar cells are shingled together. At least one solar cell has a contact formed on a first surface that is electrically connected to the conductive terminal of the solar cell. A substrate of a second cell is physically and electrically coupled to the contact. An insulator is interposed between the substrate of the second cell and the first cell to inhibit short circuits therebetween. | 05-24-2012 |
20120118355 | FLEXIBLE SOLAR SHELL AND SUPPORT STRUCTURE FOR USE WITH ROOFTOPS - A system and method for mounting flexible sheets containing solar cells adjacent the rooftop of a building. A plurality of support members are mounted to the building so that holes are not formed in the rooftop to mount the support members. Wires are then extended between the support members and the flexible sheets containing the solar cells are then mounted to the wires. | 05-17-2012 |
20120055543 | BACK CONTACT DIFFUSION BARRIER LAYERS FOR GROUP IBIIIAVIA PHOTOVOLTAIC CELLS - The present invention provides for new ohmic contact materials and diffusion barriers for Group IBIIIAVIA based solar cell structures, which eliminate two way diffusion while preserving the efficient ohmic contacts between the substrate and the absorber layers. | 03-08-2012 |
20110177645 | ROLL-TO-ROLL EVAPORATION SYSTEM AND METHOD TO MANUFACTURE GROUP IBIIIAVIA PHOTOVOLTAICS - The present inventions provide method and apparatus that employ constituents vaporized from one or more constituent supply source or sources to form one or more films of a precursor layer formed on a surface of a continuous flexible workpiece. Of particular significance is the implementation of vapor deposition systems that operate upon a horizontally disposed portion of a continuous flexible workpiece and a vertically disposed portion of a continuous flexible workpiece, preferably in conjunction with a short free-span zone of the portion of a continuous flexible workpiece. | 07-21-2011 |
20110168238 | FLEXIBLE SOLAR MODULES AND MANUFACTURING THE SAME - A flexible solar cell assembly having solar cells that are positioned within a sealed module chamber. A sealed wiring chamber is positioned on an end of the sealed module chamber and is interposed between the sealed module chamber and a junction box. Wiring interconnecting the junction box to the solar cells in the sealed module chamber are routed through the sealed wiring chamber to inhibit water entry into the sealed module chamber via the wiring. | 07-14-2011 |
20110136293 | REACTION METHODS TO FORM GROUP IBIIIAVIA THIN FILM SOLAR CELL ABSORBERS - The present invention provides a method to form Group IBIIIAVIA solar cell absorber layers on continuous flexible substrates. In a preferred aspect, the method forms a Group IBIIIAVIA absorber layer for manufacturing photovoltaic cells by providing a workpiece having a precursor layer formed over a substrate, the precursor layer including copper, indium, gallium and selenium; heating the precursor layer to a first temperature; reacting the precursor layer at the first temperature for a first predetermined time to transform the precursor layer to a partially formed absorber structure; cooling down the partially formed absorber structure to a second temperature, wherein both the first temperature and the second temperature are above 400° C.; and reacting the partially formed absorber structure at the second temperature for a second predetermined time, which is longer than the first predetermined time, to form a Group IBIIIAVIA absorber layer. | 06-09-2011 |
20110108099 | METHOD OF FORMING TRANSPARENT ZINC OXIDE LAYERS FOR HIGH EFFICIENCY PHOTOVOLTAIC CELLS - A solar cell including a high electrical resistivity transparent layer formed on a CdS buffer layer is provided. The high electrical resistivity transparent layer includes an intrinsic oxide film formed on the buffer layer and an intermediate oxide film formed on the intrinsic oxide film. The intrinsic oxide film includes undoped zinc oxide and has a thickness range of 10 to 40 nm. The intermediate oxide film includes semi-intrinsic zinc oxide doped with aluminum and has a thickness range of 50-150 nm. The intermediate oxide film has an aluminum concentration of less than 1000 ppm. | 05-12-2011 |
20110039366 | METHOD AND APPARATUS FOR DEPOSITION OF GRADED OR MULTI-LAYER TRANSPARENT FILMS - In one embodiment, a continuous electroless deposition method and a system to form a solar cell buffer layer with a varying composition through its thickness are provided. The composition of the buffer layer is varied by varying the composition of a chemical bath deposition solution applied onto an absorber surface on which the buffer layer with varying composition is formed. In one example, the buffer layer with varying composition includes a first section containing CdS, a second section containing CdZnS formed on top of the already deposited CdS, and a third section containing ZnS is formed on the second section All the process steps are applied in a roll-to-roll fashion. In another embodiment, a transparent conductive layer including a first transparent conductive film such as aluminum doped zinc oxide and a second transparent conductive film such as indium tin oxide is deposited over the buffer layer with the varying composition. | 02-17-2011 |
20110011340 | METHOD AND APPARATUS FOR CONVERTING PRECURSOR LAYERS INTO PHOTOVOLTAIC ABSORBERS - The present invention relates to method and apparatus for preparing thin films of semiconductor films for radiation detector and photovoltaic applications. In one aspect, the present invention includes a series of chambers between the inlet and the outlet, with each chamber having a gap that allows a substrate to pass therethrough, and which is temperature controlled, thereby allowing each chamber to maintain a different temperature, and the substrate to be annealed based upon a predetermined temperature profile by efficiently moving through the series of chambers. In another aspect, each of the chambers opens and closes, and creates a seal when in the closed position during which time annealing takes place within the gap of the chamber. In a further aspect, the present invention provides a method of forming a Group IBIIIAVIA compound layer on a surface of a flexible roll. | 01-20-2011 |
20110005586 | Electrochemical Deposition Methods for Fabricating Group IBIIIAVIA Compound Absorber Based Solar Cells - A method of forming a Group IBIIIAVIA absorber layer on a base for manufacturing a solar cell is provided. The method, in one embodiment, includes forming a precursor stack by electroplating a first metallic layer on the base. The first metallic layer includes at least one of copper, indium and gallium. A first selenium layer is deposited on the first metallic layer, and an interlayer is electrodeposited on the selenium layer. The interlayer includes one of gold and silver. A second metallic layer is electrodeposited on the interlayer, the second metallic layer comprising at least one of copper indium and gallium. The interlayer inhibits dissolution of selenium during the electrodeposition of the second metallic layer. Such prepared precursor stack is reacted at a temperature range of 300-600° C. to form the Group IBIIIAVIA absorber layer. | 01-13-2011 |
20100330733 | SEMITRANSPARENT FLEXIBLE THIN FILM SOLAR CELLS AND MODULES - A method of manufacturing partially light transparent thin film solar cells generally includes forming a solar cell structure stack and forming multiple openings through the solar cell structure stack. The solar cell structure stack includes a flexible foil substrate, a contact layer formed over the flexible foil substrate, a Group IBIIIAVIA absorber layer formed over the contact layer and a transparent conductive layer formed over the Group IBIIIAVIA absorber layer. A terminal structure including at least one busbar and a plurality of conductive finger patterns is deposited onto a top surface of the transparent conductive layer forming a semi-transparent solar cell. | 12-30-2010 |
20100317144 | TECHNIQUE AND APPARATUS FOR DEPOSITING LAYERS OF SEMICONDUCTORS FOR SOLAR CELL AND MODULE FABRICATION - The present invention advantageously provides for, in different embodiments, low-cost deposition techniques to form high-quality, dense, well-adhering Group IBIIIAVIA compound thin films with macro-scale as well as micro-scale compositional uniformities. It also provides methods to monolithically integrate solar cells made on such compound thin films to form modules. In one embodiment, there is provided a method of growing a Group IBIIIAVIA semiconductor layer on a base, and includes the steps of depositing on the base a nucleation and/or a seed layer and electroplating over the nucleation and/or the seed layer a precursor film comprising a Group IB material and at least one Group IIIA material, and reacting the electroplated precursor film with a Group VIA material. Other embodiments are also described. | 12-16-2010 |
20100317129 | COMPOSITION CONTROL FOR PHOTOVOLTAIC THIN FILM MANUFACTURING - The present invention relates to methods and apparatus for providing composition control to thin compound semiconductor films for radiation detector and photovoltaic applications. In one aspect of the invention, there is provided a method in which the molar ratio of the elements in a plurality of layers are detected so that tuning of the multi-element layer can occur to obtain the multi-element layer that has a predetermined molar ratio range. In another aspect of the invention, there is provided a method in which the thickness of a sub-layer and layers thereover of Cu, In and/or Ga are detected and tuned in order to provide tuned thicknesses that are substantially the same as pre-determined thicknesses. | 12-16-2010 |
20100291727 | ROLL-TO-ROLL PROCESSING METHOD AND TOOLS FOR ELECTROLESS DEPOSITION OF THIN LAYERS - A deposition method and a system are provided to deposit a CdS buffer layer on a surface of a solar cell absorber layer of a flexible workpiece from a process solution including all chemical components of the CdS buffer layer material. CdS is deposited from the deposition solution while the flexible workpiece is elastically shaped by a series of shaping rollers to retain the process solution on the solar cell absorber layer and while the flexible workpiece is heated by contacting to a heated liquid that the shaping rollers are fully or partially immersed. The flexible workpiece is elastically shaped by pulling a back surface of the flexible workpiece into surface cavity of the shaping rollers using magnetic force. | 11-18-2010 |
20100264035 | REEL-TO-REEL PLATING OF CONDUCTIVE GRIDS FOR FLEXIBLE THIN FILM SOLAR CELLS - The present inventions provide structures and methods for manufacturing high electrical conductivity grid patterns having minimum shadowing effect on the illuminated side of the solar cells. In a particular aspect, a width of an effective channel region is greater than a spacing that exists between conductive elements in adjacent grid patterns that exist along a lengthwise direction of a continuous workpiece. | 10-21-2010 |
20100248415 | SEMITRANSPARENT FLEXIBLE THIN FILM SOLAR CELLS AND MODULES - A method of manufacturing partially light transparent thin film solar cells generally includes forming a solar cell structure stack and forming multiple openings through the solar cell structure stack. The solar cell structure stack includes a flexible foil substrate, a contact layer formed over the flexible foil substrate, a Group IBIIIAVIA absorber layer formed over the contact layer and a transparent conductive layer formed over the Group IBIIIAVIA absorber layer. A terminal structure including at least one busbar and a plurality of conductive finger patterns is deposited onto a top surface of the transparent conductive layer forming a semi-transparent solar cell. | 09-30-2010 |
20100226629 | ROLL-TO-ROLL PROCESSING AND TOOLS FOR THIN FILM SOLAR CELL MANUFACTURING - Described are roll-to-roll or reel-to-reel thermal or rapid thermal processing tools (reactors) are used to react a precursor layer on a continuous flexible workpiece. Variants of the reactors are described, including a reactor having multiple exhaust outlets connected to a process gap of the reactor between an entrance opening and an exit opening of the process gap; a reactor including multiple gas inlets and exhaust outlets connected to a process gap of the reactor between an entrance opening and an exit opening of the process gap; a reactor including multiple gas inlets and exhaust outlets connected to a process gap of the reactor between an entrance opening and an exit opening of the process gap; and a reactor including multiple gas inlets and exhaust outlets connected to a process gap of the reactor between an entrance opening and an exit opening of the process gap. Also described is an exhaust system that separates the Group VIA material vapors from other gaseous species for re-cycling or easy disposal and techniques and apparatus for efficient removal of moisture from the workpiece before processing precursor layer in the RTP tool. | 09-09-2010 |
20100210040 | Method and apparatus for reducing the effect of shunting defects on thin film solar cell performance - The present invention provides methods of manufacturing a high efficiency solar cell. In one embodiment, in a solar cell having a grid pattern that channels current, a defect causes an undesired current flow is removed by mechanically removing a portion of the grid pattern, thereby passivating the defect by removing a segment of the solar cell adjacent the defect. The segment also includes the front and back portions of the solar cell at the location of the defect without including the defect. | 08-19-2010 |
20100200170 | METHOD AND APPARATUS FOR STRINGING THIN FILM SOLAR CELLS - The present inventions generally relate to thin film solar cell fabrication, and more particularly, to techniques for interconnecting solar cells based on Group IBIIIAVIA thin film semiconductors. In a particular embodiment, a system is described that positions solar cells and conductive leads with respect to each other so that application of a conductive adhesive and formation of an assembled solar cell string, followed by curing and cooling of the conductive adhesive, can occur in a repeatable manner. | 08-12-2010 |
20100200050 | ELECTROPLATING METHODS AND CHEMISTRIES FOR DEPOSITION OF COPPER-INDIUM-GALLIUM CONTAINING THIN FILMS - The present invention provides a method and precursor structure to form a Group IBIIIAIVA solar cell absorber layer. The method includes forming a Group IBIIIAVIA compound layer on a base by forming a precursor layer on the base through electrodepositing three different films, and then reacting the precursor layer with selenium to form the Group IBIIIAVIA compound layer on the base. The three films, described by the precursor layer, include in one embodiment a first alloy film comprising copper, indium and gallium, a second alloy film comprising copper and selenium formed on the first alloy film; and a selenium film formed on the second alloy film. | 08-12-2010 |
20100178716 | METHOD AND APPARATUS TO REMOVE A SEGMENT OF A THIN FILM SOLAR CELL STRUCTURE FOR EFFICIENCY IMPROVEMENT - The present inventions relate to methods and apparatus for detecting and mechanically removing defects and a surrounding portion of the photovoltaic layer and the substrate in a thin film solar cell such as a Group IBIIIAVIA compound thin film solar cell to improve its efficiency. | 07-15-2010 |
20100175743 | RELIABLE THIN FILM PHOTOVOLTAIC MODULE STRUCTURES - The inventions described herein generally relate to photovoltaic or solar module design and fabrication and, more particularly, to modules utilizing thin film solar cells. In one aspect is described a solar module and method of making the same that has a shield material that is both an electrical insulator and a moisture barrier provided at a location corresponding to at least one hole that is used to route a wiring member, such that the shield material seals the at least one hole against moisture entering into the internal space and electrically insulates the wires of the wiring member from the at least one metallic layer of the back protective sheet. | 07-15-2010 |
20100147364 | THIN FILM PHOTOVOLTAIC MODULE MANUFACTURING METHODS AND STRUCTURES - The present invention provides module structures and methods of manufacturing rigid or flexible photovoltaic modules employing thin film solar cells fabricated on flexible substrates, preferably on flexible metallic foil substrates. The solar cells may be Group IBIIIAVIA compound solar cells or amorphous silicon solar cells fabricated on thin stainless steel or aluminum alloy foils. In one embodiment, initially a solar cell string including two or more solar cells is formed by interconnecting the solar cells with conductive leads or ribbons. At least one bypass diode electrically connects conductive back surfaces of at least two solar cells. The bypass diode and the solar cells are encapsulated with support material and are packed with the protective shell such that the at least one bypass diode is placed between at least one solar cell and the bottom protective sheet. The bypass diode is thermally connected to the back conductive surface of one of the solar cells so that the back conductive surface of the solar cell functions as a heat sink. | 06-17-2010 |
20100140101 | ELECTROPLATING METHODS AND CHEMISTRIES FOR DEPOSITION OF COPPER-INDIUM-GALLIUM CONTAINING THIN FILMS - The present invention provides a method and precursor structure to form a solar cell absorber layer. The method includes electrodepositing a first layer including a film stack including at least a first film comprising copper, a second film comprising indium and a third film comprising gallium, wherein the first layer includes a first amount of copper, electrodepositing a second layer onto the first layer, the second layer including at least one of a second copper-indium-gallium-ternary alloy film, a copper-indium binary alloy film, a copper-gallium binary alloy film and a copper-selenium binary alloy film, wherein the second layer includes a second amount of copper, which is higher than the first amount of copper, and electrodepositing a third layer onto the second layer, the third layer including selenium; and reacting the precursor stack to form an absorber layer on the base. | 06-10-2010 |
20100140098 | SELENIUM CONTAINING ELECTRODEPOSITION SOLUTION AND METHODS - The present inventions relate to selenium containing electrodeposition solutions used to manufacture solar cell absorber layers. In one aspect is described an electrodeposition solution to electrodeposit a Group IB-Group VIA thin film that includes a a solvent; a Group IB material source; a Group VIA material source; and at least one complexing that forms a complex ion of the Group IB material. Also described are methods of electroplating using electrodeposition solutions. | 06-10-2010 |
20100140078 | METHOD AND APPARATUS FOR FORMING CONTACT LAYERS FOR CONTINUOUS WORKPIECES - The present invention provides a roll to roll system and a method to sputter deposit various conductive films on a back surface and a front surface of a continuous substrate to form protected base structures for Group IBIIIAVIA thin film solar cells. In one embodiment of the invention, a back protection film is sputter deposited onto the entire back side of the substrate in a first deposition station without transferring heat from the substrate. Next, a first front film is sputter deposited in a second deposition station to partially cover the front side of the substrate while heat is transferred from substrate by a cooling surface of a cooling mechanism in the second deposition station. The second film does not cover the edges of the substrate to avoid contaminating the cooling surface with the depositing material. Other embodiments are directed to specifics regarding the depositing of these films, adding other films, and a system for depositing the films. | 06-10-2010 |
20100139557 | REACTOR TO FORM SOLAR CELL ABSORBERS IN ROLL-TO-ROLL FASHION - A reactor to anneal a workpiece including a precursor material deposited over a flexible substrate is provided. The anneal process transforms the precursor material into a solar cell absorber when the workpiece is advanced through a process gap of the reactor. The process gap is defined by a peripheral wall including a top wall, a bottom wall and side walls. An exhaust opening located between the entrance and exit openings to remove gases from the continuous process gap. At least one roller having a rotational axis that is substantially transverse to the process direction and which has an outer roller surface disposed at least partially below the top wall of the continuous process gap forms a reduced gap between the outer surface of the roller and the bottom wall. The reduced gap is smaller than the process gap and the at least one roller is configured such that the workpiece travels through the reduced gap with the precursor material facing the at least one roller as the workpiece is moved between the entrance opening and the exit opening in a process direction. | 06-10-2010 |
20100089447 | CONDUCTIVE GRIDS FOR SOLAR CELLS - Embodiments of the present inventions provide structures and methods for manufacturing high electrical conductivity grid patterns having minimum shadowing effect on the illuminated side of the solar cells. To manufacture a conductive grid for a solar cell, a first conductive layer is initially formed over a transparent conductive oxide layer of a solar cell. The first conductive layer has a pattern including a busbar and fingers connected to the busbar. Next, a second conductive layer is formed on the first conductive layer. In one embodiment, the first conductive layer includes silver and the second conductive layer includes carbon nano tube material, or the first conductive layer includes carbon nano tube material and the second conductive layer includes silver. | 04-15-2010 |
20090314649 | PRECURSOR CONTAINING COPPER INDIUM AND GALLIUM FOR SELENIDE (SULFIDE) COMPOUND FORMATION - The present invention relates to systems and methods for preparing metallic precursor thin films for the growth of semiconductor compounds to be used for radiation detector and solar cell fabrication. In one aspect, there is provided a method of efficiently using expensive materials necessary for the making of solar cells. | 12-24-2009 |
20090255461 | Apparatus for Simultaneous Roll-to-Roll Wet Processing of Two Workpieces Disposed Within a Single Chamber - A system is described to deposit a buffer layer onto exposed surfaces of two different solar cell absorber layers of two different flexible workpieces from a process solution including all chemical components of the buffer layer material. The buffer layer is deposited from the process or deposition solution while the flexible workpieces are simultaneously heated and processed within a chamber in a face to face manner as the process solution is flown through a process gap formed between the exposed surfaces of the two solar cell absorber layers. | 10-15-2009 |
20090246908 | ROLL-TO-ROLL PROCESSING METHOD AND TOOLS FOR ELECTROLESS DEPOSITION OF THIN LAYERS - A deposition method and a system are provided to deposit a CdS buffer layer on a surface of a solar cell absorber layer of a flexible workpiece from a process solution including all chemical components of the CdS buffer layer material. CdS is deposited from the deposition solution while the flexible workpiece is heated and elastically shaped by a heated shaping plate to retain the process solution on the solar cell absorber layer. The flexible workpiece is elastically shaped by pulling a back surface of the flexible workpiece into a cavity area in the heated shaping plate using an attractive force. | 10-01-2009 |
20090173634 | EFFICIENT GALLIUM THIN FILM ELECTROPLATING METHODS AND CHEMISTRIES - The present invention relates to gallium (Ga) electroplating methods and chemistries to deposit uniform, defect free and smooth Ga films with high plating efficiency and repeatability. Such layers may be used in fabrication of electronic devices such as thin film solar cells. In one embodiment, the present invention provides a solution for application on a conductor that includes a Ga salt, a complexing agent, a solvent, and a Ga-film having submicron thickness is facilitated upon electrodeposition of the solution on the conductor. The solution may further include one or both of a Cu salt and an In salt. | 07-09-2009 |