Patents Assigned to Nanosolar, Inc.
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Patent number: 8039739Abstract: Methods and devices are provided for improved environmental protection for photovoltaic devices and assemblies. In one embodiment, the device comprises of an individually encapsulated solar cell, wherein the encapsulated solar cell includes at least one protective layer coupled to at least one surface of the solar cell. The protective layer has a chemical composition that prevents moisture from entering the solar cell and wherein light passes through the protective layer to reach an absorber layer in the solar cell.Type: GrantFiled: August 3, 2006Date of Patent: October 18, 2011Assignee: Nanosolar, Inc.Inventors: Philip Capps, Paul Adriani, James R. Sheats
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Patent number: 7985919Abstract: Methods and devices are provided for improved thermal management for photovoltaic devices and assemblies. In one embodiment, the photovoltaic device comprises of at least one photovoltaic cell based on a thin-film photovoltaic stack deposited directly onto a thermally conductive substrate. The thermally conductive substrate is connected to a heat sink in a configuration to allow sufficient heat transfer that lowers a normal operating cell temperature (NOCT) of the photovoltaic cell, thus increasing the efficiency of the cell and the module.Type: GrantFiled: August 18, 2006Date of Patent: July 26, 2011Assignee: Nanosolar, Inc.Inventors: Martin Roscheisen, Paul Adriani
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Patent number: 7968869Abstract: Optoelectronic device modules, arrays optoelectronic device modules and methods for fabricating optoelectronic device modules are disclosed. The device modules are made using a starting substrate having an insulator layer sandwiched between a bottom electrode made of a flexible bulk conductor and a conductive back plane. An active layer is disposed between the bottom electrode and a transparent conducting layer. One or more electrical contacts between the transparent conducting layer and the back plane are formed through the transparent conducting layer, the active layer, the flexible bulk conductor and the insulating layer. The electrical contacts are electrically isolated from the active layer, the bottom electrode and the insulating layer.Type: GrantFiled: October 4, 2008Date of Patent: June 28, 2011Assignee: Nanosolar, Inc.Inventors: James R. Sheats, Sam Kao, Martin R. Roscheisen
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Patent number: 7919337Abstract: Optoelectronic device modules, arrays optoelectronic device modules and methods for fabricating optoelectronic device modules are disclosed. The device modules are made using a starting substrate having an insulator layer sandwiched between a bottom electrode made of a flexible bulk conductor and a conductive back plane. An active layer is disposed between the bottom electrode and a transparent conducting layer. One or more electrical contacts between the transparent conducting layer and the back plane are formed through the transparent conducting layer, the active layer, the flexible bulk conductor and the insulating layer. The electrical contacts are electrically isolated from the active layer, the bottom electrode and the insulating layer.Type: GrantFiled: October 31, 2007Date of Patent: April 5, 2011Assignee: Nanosolar, Inc.Inventors: James R. Sheats, Sam Kao, Martin R. Roscheisen
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Patent number: 7858151Abstract: An absorber layer may be formed on a substrate using atomic layer deposition reactions. An absorber layer containing elements of groups IB, IIIA and VIA may be formed by placing a substrate in a treatment chamber and performing atomic layer deposition of a group IB element and/or one or more group IIIA elements from separate sources onto a substrate to form a film. A group VIA element is then incorporated into the film and annealed to form the absorber layer. The absorber layer may be greater than about 25 nm thick. The substrate may be coiled into one or more coils in such a way that adjacent turns of the coils do not touch one another. The coiled substrate may be placed in a treatment chamber where substantially an entire surface of the one or more coiled substrates may be treated by an atomic layer deposition process.Type: GrantFiled: September 18, 2004Date of Patent: December 28, 2010Assignee: Nanosolar, Inc.Inventors: Brian M. Sager, Martin R. Roscheisen, Craig Leidholm
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Patent number: 7838868Abstract: Optoelectronic device modules, arrays optoelectronic device modules and methods for fabricating optoelectronic device modules are disclosed. The device modules are made using a starting substrate having an insulator layer sandwiched between a bottom electrode made of a flexible bulk conductor and a conductive back plane. An active layer is disposed between the bottom electrode and a transparent conducting layer. One or more electrical contacts between the transparent conducting layer and the back plane are formed through the transparent conducting layer, the active layer, the flexible bulk conductor and the insulating layer. The electrical contacts are electrically isolated from the active layer, the bottom electrode and the insulating layer.Type: GrantFiled: August 16, 2005Date of Patent: November 23, 2010Assignee: Nanosolar, Inc.Inventors: James R. Sheats, Sam Kao, Martin R. Roscheisen
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Patent number: 7829143Abstract: Organic films can be annealed by exposure to a solvent vapor. The solvent vapor annealing renders the organic film insoluble even in a solvent of a solution from which it was deposited. This enables deposition of two or more organic films in sequence without having one deposition alter an underlying organic film. Devices can be easily fabricated with organic films annealed in this manner when no other solution processing method is possible.Type: GrantFiled: November 21, 2003Date of Patent: November 9, 2010Assignee: Nanosolar, Inc.Inventors: Brent J. Bollman, Matthew R. Robinson
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Patent number: 7772487Abstract: A photovoltaic apparatus may comprise two or more energy transfer layers and an acceptor layer. The energy transfer layers are configured such that excitons formed by absorption of radiation in one energy transfer layer transfer to an adjacent energy transfer layer that is closer to the acceptor layer by a dipole mechanism without the exciton diffusing to an interface between the two energy transfer layers. This can be achieved by appropriately configuring the HOMO and LUMO (or conduction and valence band) levels of the energy transfer layers and the acceptor layer.Type: GrantFiled: October 16, 2004Date of Patent: August 10, 2010Assignee: Nanosolar, Inc.Inventor: Matthew R. Robinson
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Patent number: 7732229Abstract: Methods and devices are provided for absorber layers formed on foil substrate. In one embodiment, a method of manufacturing photovoltaic devices may be comprised of providing a substrate comprising of at least one electrically conductive aluminum foil substrate, at least one electrically conductive diffusion barrier layer, and at least one electrically conductive electrode layer above the diffusion barrier layer. The diffusion barrier layer may prevent chemical interaction between the aluminum foil substrate and the electrode layer. An absorber layer may be formed on the substrate. In one embodiment, the absorber layer may be a non-silicon absorber layer. In another embodiment, the absorber layer may be an amorphous silicon (doped or undoped) absorber layer. Optionally, the absorber layer may be based on organic and/or inorganic materials.Type: GrantFiled: June 28, 2006Date of Patent: June 8, 2010Assignee: Nanosolar, Inc.Inventors: Craig Leidholm, Brent Bollman, James R. Sheats, Sam Kao, Martin R. Roscheisen
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Patent number: 7732232Abstract: Series interconnection of optoelectronic device modules is disclosed. Each device module includes an active layer disposed between a bottom electrode and a transparent conducting layer. An insulating layer is disposed between the bottom electrode of a first device module and a backside top electrode of the first device module. One or more vias are formed through the active layer, transparent conducting layer and insulating layer of the first device module. Sidewalls of the vias are coated with an insulating material such that a channel is formed through the insulating material to the backside top electrode of the first device module. The channel is at least partially filled with an electrically conductive material to form a plug that makes electrical contact between the transparent conducting layer and the backside top electrode of the first device module.Type: GrantFiled: October 1, 2007Date of Patent: June 8, 2010Assignee: Nanosolar, Inc.Inventors: James R. Sheats, Sam Kao, Gregory A. Miller, Martin R. Roscheisen
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Patent number: 7700464Abstract: Methods and devices are provided for transforming non-planar or planar precursor materials in an appropriate vehicle under the appropriate conditions to create dispersions of planar particles with stoichiometric ratios of elements equal to that of the feedstock or precursor materials, even after selective forces settling. In particular, planar particles disperse more easily, form much denser coatings (or form coatings with more interparticle contact area), and anneal into fused, dense films at a lower temperature and/or time than their counterparts made from spherical nanoparticles. These planar particles may be nanoflakes that have a high aspect ratio. The resulting dense films formed from nanoflakes are particularly useful in forming photovoltaic devices.Type: GrantFiled: February 23, 2006Date of Patent: April 20, 2010Assignee: Nanosolar, Inc.Inventors: Matthew R. Robinson, Jeroen K. J. Van Duren, Craig Leidholm, Brian M. Sager
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Patent number: 7663057Abstract: An ink for forming CIGS photovoltaic cell active layers is disclosed along with methods for making the ink, methods for making the active layers and a solar cell made with the active layer. The ink contains a mixture of nanoparticles of elements of groups IB, IIIA and (optionally) VIA. The particles are in a desired particle size range of between about 1 nm and about 500 nm in diameter, where a majority of the mass of the particles comprises particles ranging in size from no more than about 40% above or below an average particle size or, if the average particle size is less than about 5 nanometers, from no more than about 2 nanometers above or below the average particle size. The use of such ink avoids the need to expose the material to an H2Se gas during the construction of a photovoltaic cell and allows more uniform melting during film annealing, more uniform intermixing of nanoparticles, and allows higher quality absorber films to be formed.Type: GrantFiled: February 19, 2004Date of Patent: February 16, 2010Assignee: Nanosolar, Inc.Inventors: Dong Yu, Jacqueline Fidanza, Martin R. Roscheisen, Brian M. Sager
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Patent number: 7658055Abstract: Methods and devices are provided for reducing wasted space and capacity in solar module assemblies. In one embodiment, the method comprises mounting a plurality of modules onto at least one support rail to define a solar assembly segment wherein the solar assembly segment has a length of no more than about half the interior length of the shipping container used to ship the segment. The solar modules each have a weight less than about 20 kg and a length between about 1660 mm and about 1666 mm, and a width between about 700 mm and about 706 mm. In one embodiment, the length of the solar modules is limited by the longest support beam that may fit in a shipping container, which in one example is about 11,720 mm. The modules are also limited so that they can be limited to weighing no more than about 20 kg. In one embodiment, the module may be sized to provide at least 80 watts of power at AM 1.5 G. In another embodiment, the module may be sized to provide at least 90 watts of power at AM 1.5 G.Type: GrantFiled: October 1, 2006Date of Patent: February 9, 2010Assignee: Nanosolar, Inc.Inventors: Paul Adriani, Martin Roscheisen
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Patent number: 7645934Abstract: Nanostructured layers with 10 nm to 50 nm pores spaced 10-50 nm apart, a method for making such nanostructured layers, optoelectronic devices having such nanostructured layers and uses for such nanostructured layers are disclosed. The nanostructured layer can be formed using precursor sol, which generally includes one or more covalent metal complexes, one or more surfactants, a solvent, one or more optional condensation inhibitors, and (optionally) water. Evaporating the solvent from the precursor sol forms a surfactant-templated film. Covalently crosslinking the surfactant-templated film forms a nanostructured porous layer. Pore size is controlled, e.g., by appropriate solvent concentration, choice of surfactant, use of chelating agents, use of swelling agents or combinations of these.Type: GrantFiled: April 29, 2003Date of Patent: January 12, 2010Assignee: Nanosolar, Inc.Inventors: Jacqueline Fidanza, Brian M. Sager, Martin R. Roscheisen, Dong Yu, Gina J. Gerritzen
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Patent number: 7605327Abstract: Photovoltaic devices, such as solar cells, and methods for their manufacture are disclosed. A device may be characterized by an architecture having a nanostructured template made from an n-type first charge transfer material with template elements between about 1 nm and about 500 nm in diameter with about 1012 to 1016 elements/m2. A p-type second charge-transfer material optionally coats the walls of the template elements leaving behind additional space. A p-type third charge-transfer material fills the additional space volumetrically interdigitating with the second charge transfer material.Type: GrantFiled: February 2, 2004Date of Patent: October 20, 2009Assignee: Nanosolar, Inc.Inventors: Martin R. Roscheisen, Brian M. Sager, Karl Pichler
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Patent number: D616359Type: GrantFiled: April 23, 2008Date of Patent: May 25, 2010Assignee: Nanosolar, Inc.Inventor: Paul M. Adriani
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Patent number: D616812Type: GrantFiled: April 23, 2008Date of Patent: June 1, 2010Assignee: Nanosolar, Inc.Inventors: Jeremy H. Scholz, Paul M. Adriani
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Patent number: D616813Type: GrantFiled: June 17, 2008Date of Patent: June 1, 2010Assignee: Nanosolar, Inc.Inventors: Robert Stancel, Jeremy H. Scholz, Paul M. Adriani
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Patent number: D632247Type: GrantFiled: February 26, 2010Date of Patent: February 8, 2011Assignee: Nanosolar, Inc.Inventors: Robert Stancel, Darren Lochun
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Patent number: D644601Type: GrantFiled: April 30, 2008Date of Patent: September 6, 2011Assignee: Nanosolar, Inc.Inventor: Paul M. Adriani