Patents by Inventor Klaus Petritsch
Klaus Petritsch 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: 8178384Abstract: An optoelectronic apparatus, a method for making the apparatus, and the use of the apparatus in an optoelectronic device are disclosed. The apparatus may include an active layer having a nanostructured network layer with a network of regularly spaced structures with spaces between neighboring structures. One or more network-filling materials are disposed in the spaces. At least one of the network-filling materials has complementary charge transfer properties with respect to the nanostructured network layer. An interfacial layer, configured to enhance an efficiency of the active layer, is disposed between the nanostructured network layer and the network-filling materials. The interfacial layer may be configured to provide (a) charge transfer between the two materials that exhibits different rates for forward versus backward transport; (b) differential light absorption to extend a range of wavelengths that the active layer can absorb; or (c) enhanced light absorption, which may be coupled with charge injection.Type: GrantFiled: March 10, 2009Date of Patent: May 15, 2012Assignee: Nanosolar, Inc.Inventors: Martin R. Roscheisen, Brian M. Sager, Klaus Petritsch, Jacqueline Fidanza
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Patent number: 7511217Abstract: An optoelectronic apparatus, a method for making the apparatus, and the use of the apparatus in an optoelectronic device are disclosed. The apparatus may include an active layer having a nanostructured network layer with a network of regularly spaced structures with spaces between neighboring structures. One or more network-filling materials are disposed in the spaces. At least one of the network-filling materials has complementary charge transfer properties with respect to the nanostructured network layer. An interfacial layer, configured to enhance an efficiency of the active layer, is disposed between the nanostructured network layer and the network-filling materials. The interfacial layer may be configured to provide (a) charge transfer between the two materials that exhibits different rates for forward versus backward transport; (b) differential light absorption to extend a range of wavelengths that the active layer can absorb; or (c) enhanced light absorption, which may be coupled with charge injection.Type: GrantFiled: April 19, 2003Date of Patent: March 31, 2009Assignee: Nanosolar, Inc.Inventors: Martin R. Roscheisen, Brian M. Sager, Klaus Petritsch, Jacqueline Fidanza
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Patent number: 7291782Abstract: Charge-splitting networks, optoelectronic devices, methods for making optoelectronic devices, power generation systems utilizing such devices and method for making charge-splitting networks are disclosed. An optoelectronic device may include a porous nano-architected (e.g., surfactant-templated) film having interconnected pores that are accessible from both the underlying and overlying layers. A pore-filling material substantially fills the pores. The interconnected pores have diameters of about 1-100 nm and are distributed in a substantially uniform fashion with neighboring pores separated by a distance of about 1-100 nm. The nano-architected porous film and the pore-filling, material have complementary charge-transfer properties with respect to each other, i.e., one is an electron-acceptor and the other is a hole-acceptor. The nano-architected porous, film may be formed on a substrate by a surfactant temptation technique such as evaporation-induced self-assembly.Type: GrantFiled: November 5, 2002Date of Patent: November 6, 2007Assignee: Nanosolar, Inc.Inventors: Brian M. Sager, Martin R. Roscheisen, Klaus Petritsch, Greg Smestad, Jacqueline Fidanza, Gregory A. Miller, Dong Yu
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Publication number: 20070181177Abstract: Charge-splitting networks, optoelectronic devices, methods for making optoelectronic devices, power generation systems utilizing such devices and method for making charge-splitting networks are disclosed. An optoelectronic device may include a porous nano-architected (e.g., surfactant-templated) film having interconnected pores that are accessible from both the underlying and overlying layers. A pore-filling material substantially fills the pores. The interconnected pores have diameters of about 1-100 nm and are distributed in a substantially uniform fashion with neighboring pores separated by a distance of about 1-100 nm. The nano-architected porous film and the pore-filling, material have complementary charge-transfer properties with respect to each other, i.e., one is an electron-acceptor and the other is a hole-acceptor. The nano-architected porous, film may be formed on a substrate by a surfactant temptation technique such as evaporation-induced self-assembly.Type: ApplicationFiled: November 5, 2002Publication date: August 9, 2007Applicant: Nanosolar, Inc.Inventors: Brian Sager, Martin Roscheisen, Klaus Petritsch, Greg Smestad, Jacqueline Fidanza, Gregory Miller, Dong Yu
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Patent number: 7253017Abstract: Charge splitting networks for optoelectronic devices may be fabricated using a nanostructured porous film, e.g., of SiO2, as a template. The porous film may be fabricated using surfactant temptation techniques. Any of a variety of semiconducting materials including semiconducting metals and metal oxides (such as TiO2, CdSe, CdS, CdTe, or CuO) may be deposited into the pores of the porous template film. After deposition, the template film may be removed by controlled exposure to acid or base without disrupting the semiconducting material leaving behind a nanoscale network grid. Spaces in the network grid can then be filled with complementary semiconducting material, e.g., a semiconducting polymer or dye to create a exciton-splitting and charge transporting network with superior optoelectronic properties for an optoelectronic devices, particularly photovoltaic devices.Type: GrantFiled: November 22, 2002Date of Patent: August 7, 2007Assignee: Nanosolar, Inc.Inventors: Martin R. Roscheisen, Brian M. Sager, Jacqueline Fidanza, Klaus Petritsch, Gregory A. Miller, Dong Yu
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Patent number: 7247346Abstract: Methods and apparatus for the rapid and parallel synthesis of optoelectronic cell devices and for the high-throughput screening of such devices for useful properties are disclosed. The methods comprise the parallel synthesis of arrays of optoelectronic devices fabricated within an addressable sample-holding matrix. Each optoelectronic device is created and tested within an addressable sample-holder in the fabrication device.Type: GrantFiled: April 28, 2003Date of Patent: July 24, 2007Assignee: Nanosolar, Inc.Inventors: Brian M. Sager, Martin R. Roscheisen, Klaus Petritsch
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Patent number: 6987071Abstract: Spaces in a nanostructure can be filled with an organic material while in the solid state below Tm (without heating) by exposing the organic material to solvent vapor while on or mixed with the nanostructured material. The exposure to solvent vapor results in intimate contact between the organic material and the nanostructured material without having to expose them to possibly detrimental heat to melt in the organic material. Solution processing methods need only to be employed to create bulk films while organic material infiltration can take place in the solid state after depositing the film.Type: GrantFiled: November 21, 2003Date of Patent: January 17, 2006Assignee: Nanosolar, Inc.Inventors: Brent J. Bollman, Klaus Petritsch, Matthew R. Robinson
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Publication number: 20040084080Abstract: Charge-splitting networks, optoelectronic devices, methods for making optoelectronic devices, power generation systems utilizing such devices and method for making charge-splitting networks are disclosed. An optoelectronic device may include a porous nano-architected (e.g., surfactant-templated) film having interconnected pores that are accessible from both the underlying and overlying layers. A pore-filling material substantially fills the pores. The interconnected pores have diameters of about 1-100 nm and are distributed in a substantially uniform fashion with neighboring pores separated by a distance of about 1-100 nm. The nano-architected porous film and the pore-filling, material have complementary charge-transfer properties with respect to each other, i.e., one is an electron-acceptor and the other is a hole-acceptor. The nano-architected porous, film may be formed on a substrate by a surfactant temptation technique such as evaporation-induced self-assembly.Type: ApplicationFiled: November 5, 2002Publication date: May 6, 2004Applicant: Nanosolar, Inc.Inventors: Brian M. Sager, Martin R. Roscheisen, Klaus Petritsch, Greg Smestad, Jacqueline Fidanza, Gregory A. Miller, Dong Yu
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Patent number: 6340789Abstract: The invention concerns optically absorptive photonic devices and in particular photovoltaic and photoconductive devices. It is particularly concerned with devices formed from multiple semiconducting layers, e.g., organic semiconducting polymers. Such a device has two central semiconductive layers which have been laminated together so as to form a mixed layer between the first and second semiconductive layers, while retaining at least some of the first and second semiconductive layers on either side of the mixed layer.Type: GrantFiled: September 15, 2000Date of Patent: January 22, 2002Assignee: Cambridge Display Technology LimitedInventors: Klaus Petritsch, Magnus Granstrom
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Patent number: 4028407Abstract: Tartaric acid is produced by epoxidizing acid calcium maleate with aqueous hydrogen peroxide in the presence of a tungstic acid-containing catalyst to produce sparingly soluble acid calcium cis-epoxysuccinic acid, which is suspended in a solvent medium comprising an organic solvent or a mixture of organic solvent and water and treated with sulphuric acid. Calcium sulphate is formed and separated and the liberated organic acids consisting essentially of epoxysuccinic acid are then hydrolyzed in an aqueous medium to form tartaric acid. The organic solvent may be one in which epoxysuccinic acid is soluble and may be immiscible or miscible with water. If the solvent is imiscible with water the epoxysuccinic acid may be transferred to the aqueous medium in which it is hydrolyzed by liquid-liquid extraction.Type: GrantFiled: December 18, 1975Date of Patent: June 7, 1977Assignee: Firma/Osterreichische Chemische Werke Gesellschaft m.b.HInventors: Klaus Petritsch, Peter Korl