Patents by Inventor Robert D. Wieting
Robert D. Wieting has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 9196779Abstract: A method of fabricating a thin film photovoltaic device is provided. The method subjects a soda lime glass substrate having a front side, backside, and edges to a first cleaning process and forms a first coating of silicon dioxide overlying the backside and the edges. The method further subjects the substrate to a second cleaning process and forms a second coating of silicon dioxide overlying the front side and the edges of the substrate. Furthermore, the method includes causing a barrier layer comprising the first coating and the second coating to encapsulate entirely the front side, backside, and edges. The barrier layer includes at least a thickness of oxygen rich silicon dioxide to contain any sodium bearing material within the substrate. Moreover, the method includes forming a thickness of metal material overlying the second coating on the front side followed by an absorber material and window material plus a top electrode.Type: GrantFiled: September 19, 2012Date of Patent: November 24, 2015Assignee: Stion CorporationInventors: James H. Whittemore, IV, Laila Dounas, Chester A. Farris, III, Robert D. Wieting
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Publication number: 20150270431Abstract: A method and apparatus for recovering and stabilizing photovoltaic performance of a thin-film solar module after lamination. The method includes a LED light soaking treatment prior to a forward biasing treatment of the thin-film photovoltaic material formed on a glass panel. The apparatus for implementing the method comprises an in-line system for loading the laminated solar panel on a conveyor to pass through a first process station to allow a brief LED light illumination followed by disposing the same laminated glass panel in a second process station to receive a forward bias treatment including applying multiple short electrical pulses with a constant current through the thin-film solar module. The photovoltaic performance of the laminated thin-film solar module after these treatments is recovered to substantially a same level obtained in a bare-circuit configuration and is stabilized substantially free from being affected by any further long-time light soaking.Type: ApplicationFiled: March 17, 2015Publication date: September 24, 2015Inventors: Chester A. Farris, III, Joseph Anderson, James Henry Whittemore, IV, Laila Dounas, Todd G. Brehmer, Robert D. Wieting
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Patent number: 9096930Abstract: An apparatus for fabricating thin film photovoltaic devices includes a deposition chamber for loading a pair of substrates. Two heater platens in a side-by-side configuration with a middle gap form intimate contact with the pair of substrates. Each heater platen has a second width and a second length respectively made smaller than the first width and the first length to allow the substrate to fully cover the heater platen for preventing formation of edge lip due to coating buildup in a peripheral edge region. The apparatus further includes a shield structure which covers both the middle gap and all outer peripheral side regions of the side-by-side configuration of the two heater platens for preventing coating buildup and guiding a downstream flow.Type: GrantFiled: July 18, 2011Date of Patent: August 4, 2015Assignee: Stion CorporationInventors: Kenneth B. Doering, Robert D. Wieting
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Patent number: 9084969Abstract: A system for recycling a work gas used in a thermal reactor for treating sample materials includes a thermal reactor using a work gas from a first source mixed with carrier gases. The work gas has a boiling point higher than the carrier gases. The system includes a pump, a condenser which converts the work gas into a liquid, and a scrubber.Type: GrantFiled: May 20, 2014Date of Patent: July 21, 2015Assignee: Stion CorporationInventor: Robert D. Wieting
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Patent number: 9087955Abstract: A method for processing a thin film photovoltaic module. The method includes providing a plurality of substrates, each of the substrates having a first electrode layer and an overlying absorber layer composed of copper indium gallium selenide (CIGS)or copper indium selenide (CIS) material. The absorber material comprises a plurality of sodium bearing species. The method maintains the plurality of substrates in a controlled environment after formation of at least the absorber layer through one or more processes up to a lamination process. The controlled environment has a relative humidity of less than 10% and a temperature ranging from about 10 degrees Celsius to about 40 degrees Celsius. The method subjects the plurality of substrates to a liquid comprising water at a temperature from about 10 degrees Celsius to about 80 degrees Celsius to process the plurality of substrates after formation of the absorber layer.Type: GrantFiled: March 18, 2014Date of Patent: July 21, 2015Assignee: Stion CorporationInventor: Robert D. Wieting
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Patent number: 9068764Abstract: An apparatus for mounting a frameless solar module includes a top member made by a solid material including two contact pads and a bottom member made by a rubber material including two upward rounded end bumps. The top member and the bottom member are operably fixed by a screw set in a symmetric mounting configuration. The contact pad is also made from the rubber material for pressing onto a top cover glass panel near an edge region. The upward rounded end bump is for supporting a portion of a bottom substrate glass panel at a first offset distance away from the top cover glass panel and a horizontal offset distance away from the edge region. The first offset distance is adjusted to a thickness of the frameless solar module and the second distance is predetermined for providing adequate support of the frameless solar module to allow uninhibited flexion under load.Type: GrantFiled: June 6, 2013Date of Patent: June 30, 2015Assignee: Stion CorporationInventors: Joshua Alexander Moore, Todd G. Brehmer, Robert D. Wieting
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Patent number: 9059370Abstract: A method for fabricating a thin film photovoltaic device. The method includes providing a substrate comprising an absorber layer and an overlying window layer. The substrate is loaded into a chamber and subjected to a vacuum environment. The vacuum environment is at a pressure ranging from 0.1 Torr to about 0.02 Torr. In a specific embodiment, a mixture of reactant species derived from diethylzinc species, water species and a carrier gas is introduced into the chamber. The method further introduces a diborane species using a selected flow rate into the mixture of reactant species. A zinc oxide film is formed overlying the window layer to define a transparent conductive oxide using the selected flow rate to provide a resistivity of about 2.5 milliohm-cm and less and an average grain size of about 3000 to 5000 Angstroms.Type: GrantFiled: September 12, 2013Date of Patent: June 16, 2015Assignee: Stion CorporationInventor: Robert D. Wieting
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Publication number: 20150136231Abstract: A method for fabricating a thin film photovoltaic device is provided. The method includes providing a substrate comprising a surface region made of a thin-film photovoltaic absorber including copper, indium, gallium, selenium, and sulfur species. Additionally, the method includes applying a dip-in chemical bath deposition process for forming a buffer layer containing at least zinc-oxygen-sulfide material but substantially free of cadmium species. Furthermore, the method includes producing a chemical bath including steps of heating a bath of water to about 75° C., adding aqueous ammonia to mix with the bath of water, adding a solution of sodium hydroxide , adding zinc salt solution, and adding a solution of thiourea. The dip-in chemical bath deposition process includes immersing a plurality of substrates formed with the thin-film photovoltaic absorber substantially vertically in the chemical bath for 30 minutes to form the zinc-oxygen-sulfide buffer layer followed by a cleaning and drying process.Type: ApplicationFiled: December 9, 2014Publication date: May 21, 2015Inventors: Robert D. Wieting, Jason Todd Jackson
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Publication number: 20150072469Abstract: A method of processing a thin-film absorber material with enhanced photovoltaic efficiency. The method includes providing a soda-lime glass substrate having a surface region and forming a barrier material overlying the surface region, followed by formation of a stack structure including a first thickness of a first precursor, a second thickness of a second precursor, and a third thickness of a third precursor. The first thickness of the first precursor is sputtered with a first target device including a first mixture of copper, gallium, and a first sodium species. The method further includes subjecting the soda-lime glass substrate having the stack structure in a thermal treatment process with at least H2Se gas species at a temperature above 400° C. to cause formation of an absorber material. Moreover, the method includes transferring a second sodium species from a portion of the soda-lime glass substrate via gas-phase diffusion during the thermal treatment process.Type: ApplicationFiled: November 18, 2014Publication date: March 12, 2015Inventor: Robert D. Wieting
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Publication number: 20150027517Abstract: A method for integrating photovoltaic module includes providing a cover plate having a first surface and a second surface opposed to the first surface and supplying two or more solar devices respectively formed on substrates. Each of the two or more photovoltaic devices includes a plurality of photovoltaic cells electrically coupled to each other and each cell is characterized by a thin-film photovoltaic layer sandwiched between a first electrode material and a second electrode material. The first electrode material overlies the substrate and the second electrode material overlies the thin-film photovoltaic layer. The method further includes disposing the two or more solar devices side by side to laminate with the cover plate by means of a first organic material filled between the second electrode material and the second surface. Each of the two or more solar devices has a peripheral edge region being sealed by a second organic material.Type: ApplicationFiled: October 14, 2014Publication date: January 29, 2015Inventor: Robert D. Wieting
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Publication number: 20140361135Abstract: An apparatus for mounting a frameless solar module includes a top member made by a solid material including two contact pads and a bottom member made by a rubber material including two upward rounded end bumps. The top member and the bottom member are operably fixed by a screw set in a symmetric mounting configuration. The contact pad is also made from the rubber material for pressing onto a top cover glass panel near an edge region. The upward rounded end bump is for supporting a portion of a bottom substrate glass panel at a first offset distance away from the top cover glass panel and a horizontal offset distance away from the edge region. The first offset distance is adjusted to a thickness of the frameless solar module and the second distance is predetermined for providing adequate support of the frameless solar module to allow uninhibited flexion under load.Type: ApplicationFiled: June 6, 2013Publication date: December 11, 2014Inventors: Joshua Alexander Moore, Todd G. Brehmer, Robert D. Wieting
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Patent number: 8906732Abstract: A method for fabricating a thin film photovoltaic device is provided. The method includes providing a substrate comprising a surface region made of a thin-film photovoltaic absorber including copper, indium, gallium, selenium, and sulfur species. Additionally, the method includes applying a dip-in chemical bath deposition process for forming a buffer layer containing at least zinc-ogygen-sulfide material but substantially free of cadmium species. Furthermore, the method includes producing a chemical bath including steps of heating a bath of water to about 75° C., adding aqueous ammonia to mix with the bath of water, adding a solution of sodium hydroxide, adding zinc salt solution, and adding a solution of thiourea. The dip-in chemical bath deposition process includes immersing a plurality of substrates formed with the thin-film photovoltaic absorber substantially vertically in the chemical bath for 30 minutes to form the zinc-oxygen-sulfide buffer layer followed by a cleaning and drying process.Type: GrantFiled: January 14, 2014Date of Patent: December 9, 2014Assignee: Stion CorporationInventors: Robert D. Wieting, Jason Todd Jackson
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Publication number: 20140352782Abstract: A method for manufacturing a thin-film photovoltaic device includes providing a glass substrate contained sodium species. The glass substrate comprising a surface region and a peripheral edge region surround the surface region. The method further includes forming a barrier material overlying the surface region and partially overlying the peripheral edge region and forming a conductor material overlying the barrier material. Additionally, the method includes forming at least a first trench in a vicinity of the peripheral edge region to remove substantially the conductor material therein and forming precursor materials overlying the patterned conductor material. Furthermore, the method includes thermally treating the precursor materials to transform the precursor materials into a film of photovoltaic absorber. The first trench is configured to maintain the film of photovoltaic absorber substantially free from peeling off the conductor material.Type: ApplicationFiled: August 19, 2014Publication date: December 4, 2014Inventors: Laila Dounas, Robert D. Wieting, Chester A. Farris, III
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Patent number: 8889465Abstract: A method of processing a thin-film absorber material with enhanced photovoltaic efficiency. The method includes providing a soda-lime glass substrate having a surface region and forming a barrier material overlying the surface region, followed by formation of a stack structure including a first thickness of a first precursor, a second thickness of a second precursor, and a third thickness of a third precursor. The first thickness of the first precursor is sputtered with a first target device including a first mixture of copper, gallium, and a first sodium species. The method further includes subjecting the soda-lime glass substrate having the stack structure in a thermal treatment process with at least H2Se gas species at a temperature above 400° C. to cause formation of an absorber material. Moreover, the method includes transferring a second sodium species from a portion of the soda-lime glass substrate via gas-phase diffusion during the thermal treatment process.Type: GrantFiled: April 5, 2013Date of Patent: November 18, 2014Assignee: Stion CorporationInventor: Robert D. Wieting
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Publication number: 20140308774Abstract: A method for fabricating a thin film photovoltaic device is provided. The method includes providing a substrate comprising a surface region made of a thin-film photovoltaic absorber including copper, indium, gallium, selenium, and sulfur species. Additionally, the method includes applying a dip-in chemical bath deposition process for forming a buffer layer containing at least zinc-oxygen-sulfide material but substantially free of cadmium species. Furthermore, the method includes producing a chemical bath including steps of heating a bath of water to about 75° C., adding aqueous ammonia to mix with the bath of water, adding a solution of sodium hydroxide, adding zinc salt solution, and adding a solution of thiourea. The dip-in chemical bath deposition process includes immersing a plurality of substrates formed with the thin-film photovoltaic absorber substantially vertically in the chemical bath for 30 minutes to form the zinc-oxygen-sulfide buffer layer followed by a cleaning and drying process.Type: ApplicationFiled: January 14, 2014Publication date: October 16, 2014Applicant: Stion CorporationInventors: Robert D. Wieting, Jason Todd Jackson
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Patent number: 8859880Abstract: A method for integrating photovoltaic module includes providing a cover plate having a first surface and a second surface opposed to the first surface and supplying photovoltaic devices respectively formed on substrates. The photovoltaic devices include photovoltaic cells electrically coupled to each other, and each cell is characterized by a thin-film photovoltaic layer sandwiched between a first electrode material and a second electrode material. The first electrode material overlies the substrate and the second electrode material overlies the thin-film photovoltaic layer. The method further includes disposing the solar devices side by side to laminate with the cover plate by means of a first organic material filled between the second electrode material and the second surface. Each of the solar devices has a peripheral edge region being sealed by a second organic material. The method further includes electrically coupling the solar devices to each other.Type: GrantFiled: January 14, 2011Date of Patent: October 14, 2014Assignee: Stion CorporationInventor: Robert D. Wieting
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Publication number: 20140287551Abstract: A method for fabricating a thin film solar cell includes providing a soda lime glass substrate comprising a surface region, treating the surface region with one or more cleaning process including an aqueous solution to remove one or more contaminants and/or particulates, and forming a lower electrode layer overlying the surface region. The method also includes performing a thermal treatment process to remove any residual water species to substantially less than a monolayer of water species from the lower electrode layer and soda lime glass substrate. The thermal treatment process changes a temperature of the soda lime glass substrate from a first temperature to a second temperature to pre-heat the soda lime glass substrate. Additionally, the method includes transferring the soda lime glass substrate, which has been preheated, to a deposition chamber and forming a layer of photovoltaic material overlying the lower electrode layer within the deposition chamber.Type: ApplicationFiled: June 3, 2014Publication date: September 25, 2014Applicant: Stion CorporationInventor: Robert D. Wieting
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Patent number: 8809109Abstract: A method for manufacturing a thin-film photovoltaic device includes providing a glass substrate contained sodium species. The glass substrate comprising a surface region and a peripheral edge region surround the surface region. The method further includes forming a barrier material overlying the surface region and partially overlying the peripheral edge region and forming a conductor material overlying the barrier material. Additionally, the method includes forming at least a first trench in a vicinity of the peripheral edge region to remove substantially the conductor material therein and forming precursor materials overlying the patterned conductor material. Furthermore, the method includes thermally treating the precursor materials to transform the precursor materials into a film of photovoltaic absorber. The first trench is configured to maintain the film of photovoltaic absorber substantially free from peeling off the conductor material.Type: GrantFiled: May 21, 2012Date of Patent: August 19, 2014Assignee: Stion CorporationInventors: Laila Dounas, Robert D. Wieting, Chester A. Farris, III
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Publication number: 20140170808Abstract: A method for fabricating a thin film photovoltaic device. The method includes providing a substrate comprising an absorber layer and an overlying window layer. The substrate is loaded into a chamber and subjected to a vacuum environment. The vacuum environment is at a pressure ranging from 0.1 Torr to about 0.02 Torr. In a specific embodiment, a mixture of reactant species derived from diethylzinc species, water species and a carrier gas is introduced into the chamber. The method further introduces a diborane species using a selected flow rate into the mixture of reactant species. A zinc oxide film is formed overlying the window layer to define a transparent conductive oxide using the selected flow rate to provide a resistivity of about 2.Type: ApplicationFiled: September 12, 2013Publication date: June 19, 2014Applicant: Stion CorporationInventor: Robert D. Wieting
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Patent number: 8741689Abstract: A method for fabricating a thin film solar cell includes providing a soda lime glass substrate comprising a surface region, treating the surface region with one or more cleaning process including an aqueous solution to remove one or more contaminants and/or particulates, and forming a lower electrode layer overlying the surface region. The method also includes performing a thermal treatment process to remove any residual water species to substantially less than a monolayer of water species from the lower electrode layer and soda lime glass substrate. The thermal treatment process changes a temperature of the soda lime glass substrate from a first temperature to a second temperature to pre-heat the soda lime glass substrate. Additionally, the method includes transferring the soda lime glass substrate, which has been preheated, to a deposition chamber and forming a layer of photovoltaic material overlying the lower electrode layer within the deposition chamber.Type: GrantFiled: September 29, 2009Date of Patent: June 3, 2014Assignee: Stion CorporationInventor: Robert D. Wieting