Patents by Inventor Larissa Levina
Larissa Levina 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: 8054671Abstract: Optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit an array of conductive regions; and an optically sensitive material over at least a portion of the integrated circuit and in electrical communication with at least one conductive region of the array of conductive regions. Under another aspect, a method of forming a nanocrystalline film includes fabricating a plurality of nanocrystals having a plurality of first ligands attached to their outer surfaces; exchanging the first ligands for second ligands of different chemical composition than the first ligands; forming a film of the ligand-exchanged nanocrystals; removing the second ligands; and fusing the cores of adjacent nanocrystals in the film to form an electrical network of fused nanocrystals.Type: GrantFiled: May 14, 2010Date of Patent: November 8, 2011Assignee: InVisage Technologies, Inc.Inventors: Edward Sargent, Gerasimos Konstantatos, Larissa Levina, Ian Howard, Ethan J. D. Klem, Jason Clifford
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Patent number: 8023306Abstract: Optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit an array of conductive regions; and an optically sensitive material over at least a portion of the integrated circuit and in electrical communication with at least one conductive region of the array of conductive regions. Under another aspect, a method of forming a nanocrystalline film includes fabricating a plurality of nanocrystals having a plurality of first ligands attached to their outer surfaces; exchanging the first ligands for second ligands of different chemical composition than the first ligands; forming a film of the ligand-exchanged nanocrystals; removing the second ligands; and fusing the cores of adjacent nanocrystals in the film to form an electrical network of fused nanocrystals.Type: GrantFiled: May 14, 2010Date of Patent: September 20, 2011Assignee: InVisage Technologies, Inc.Inventors: Edward Sargent, Larissa Levina, Gerasimos Konstantatos, Ian Howard, Ethan J. D. Klem, Jason Clifford
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Patent number: 8022391Abstract: A composite material is described. The composite material comprises semiconductor nanocrystals, and organic molecules that passivate the surfaces of the semiconductor nanocrystals. One or more properties of the organic molecules facilitate the transfer of charge between the semiconductor nanocrystals. A semiconductor material is described that comprises p-type semiconductor material including semiconductor nanocrystals. At least one property of the semiconductor material results in a mobility of electrons in the semiconductor material being greater than or equal to a mobility of holes. A semiconductor material is described that comprises n-type semiconductor material including semiconductor nanocrystals. At least one property of the semiconductor material results in a mobility of holes in the semiconductor material being greater than or equal to a mobility of electrons.Type: GrantFiled: April 20, 2009Date of Patent: September 20, 2011Assignee: InVisage Technologies, Inc.Inventors: Edward Hartley Sargent, Ghada Koleilat, Jiang Tang, Keith William Johnston, Andras Geza Pattantyus-Abraham, Gerasimos Konstantatos, Ethan Jacob Dukenfield Klem, Stefan Myrskog, Dean Delehanty MacNeil, Jason Paul Clifford, Larissa Levina
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Patent number: 7881091Abstract: Optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit an array of conductive regions; and an optically sensitive material over at least a portion of the integrated circuit and in electrical communication with at least one conductive region of the array of conductive regions. Under another aspect, a method of forming a nanocrystalline film includes fabricating a plurality of nanocrystals having a plurality of first ligands attached to their outer surfaces; exchanging the first ligands for second ligands of different chemical composition than the first ligands; forming a film of the ligand-exchanged nanocrystals; removing the second ligands; and fusing the cores of adjacent nanocrystals in the film to form an electrical network of fused nanocrystals.Type: GrantFiled: February 27, 2009Date of Patent: February 1, 2011Assignee: InVisage Technologies. Inc.Inventors: Edward Sargent, Gerasimos Konstantatos, Larissa Levina, Ian Howard, Ethan J. D. Klem, Jason Clifford
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Publication number: 20100314529Abstract: Optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit an array of conductive regions; and an optically sensitive material over at least a portion of the integrated circuit and in electrical communication with at least one conductive region of the array of conductive regions. Under another aspect, a method of forming a nanocrystalline film includes fabricating a plurality of nanocrystals having a plurality of first ligands attached to their outer surfaces; exchanging the first ligands for second ligands of different chemical composition than the first ligands; forming a film of the ligand-exchanged nanocrystals; removing the second ligands; and fusing the cores of adjacent nanocrystals in the film to form an electrical network of fused nanocrystals.Type: ApplicationFiled: August 6, 2010Publication date: December 16, 2010Inventors: Edward Sargent, Jason Clifford, Gerasimos Konstantatos, Ian Howard, Ethan J.D. Klem, Larissa Levina
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Publication number: 20100317175Abstract: Optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit an array of conductive regions; and an optically sensitive material over at least a portion of the integrated circuit and in electrical communication with at least one conductive region of the array of conductive regions. Under another aspect, a method of forming a nanocrystalline film includes fabricating a plurality of nanocrystals having a plurality of first ligands attached to their outer surfaces; exchanging the first ligands for second ligands of different chemical composition than the first ligands; forming a film of the ligand-exchanged nanocrystals; removing the second ligands; and fusing the cores of adjacent nanocrystals in the film to form an electrical network of fused nanocrystals.Type: ApplicationFiled: May 14, 2010Publication date: December 16, 2010Inventors: Edward Sargent, Gerasimos Konstantatos, Larissa Levina, Ian Howard, Ethan J.D. Klem, Jason Clifford
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Publication number: 20100314603Abstract: Optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit an array of conductive regions; and an optically sensitive material over at least a portion of the integrated circuit and in electrical communication with at least one conductive region of the array of conductive regions. Under another aspect, a method of forming a nanocrystalline film includes fabricating a plurality of nanocrystals having a plurality of first ligands attached to their outer surfaces; exchanging the first ligands for second ligands of different chemical composition than the first ligands; forming a film of the ligand-exchanged nanocrystals; removing the second ligands; and fusing the cores of adjacent nanocrystals in the film to form an electrical network of fused nanocrystals.Type: ApplicationFiled: May 14, 2010Publication date: December 16, 2010Inventors: Edward Sargent, Gerasimos Konstantatos, Larissa Levina, Ian Howard, Ethan J.D. Klem, Jason Clifford
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Patent number: 7773404Abstract: Optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit an array of conductive regions; and an optically sensitive material over at least a portion of the integrated circuit and in electrical communication with at least one conductive region of the array of conductive regions. Under another aspect, a method of forming a nanocrystalline film includes fabricating a plurality of nanocrystals having a plurality of first ligands attached to their outer surfaces; exchanging the first ligands for second ligands of different chemical composition than the first ligands; forming a film of the ligand-exchanged nanocrystals; removing the second ligands; and fusing the cores of adjacent nanocrystals in the film to form an electrical network of fused nanocrystals.Type: GrantFiled: August 24, 2006Date of Patent: August 10, 2010Assignee: InVisage Technologies, Inc.Inventors: Edward Sargent, Jason Clifford, Gerasimos Konstantatos, Ian Howard, Ethan J. D. Klem, Larissa Levina
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Patent number: 7746681Abstract: Optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit an array of conductive regions; and an optically sensitive material over at least a portion of the integrated circuit and in electrical communication with at least one conductive region of the array of conductive regions. Under another aspect, a method of forming a nanocrystalline film includes fabricating a plurality of nanocrystals having a plurality of first ligands attached to their outer surfaces; exchanging the first ligands for second ligands of different chemical composition than the first ligands; forming a film of the ligand-exchanged nanocrystals; removing the second ligands; and fusing the cores of adjacent nanocrystals in the film to form an electrical network of fused nanocrystals.Type: GrantFiled: August 24, 2006Date of Patent: June 29, 2010Assignee: InVisage Technologies, Inc.Inventors: Edward Sargent, Gerasimos Konstantatos, Larissa Levina, Ian Howard, Ethan J. D. Klem, Jason Clifford
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Patent number: 7742322Abstract: Optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit an array of conductive regions; and an optically sensitive material over at least a portion of the integrated circuit and in electrical communication with at least one conductive region of the array of conductive regions. Under another aspect, a method of forming a nanocrystalline film includes fabricating a plurality of nanocrystals having a plurality of first ligands attached to their outer surfaces; exchanging the first ligands for second ligands of different chemical composition than the first ligands; forming a film of the ligand-exchanged nanocrystals; removing the second ligands; and fusing the cores of adjacent nanocrystals in the film to form an electrical network of fused nanocrystals.Type: GrantFiled: August 24, 2006Date of Patent: June 22, 2010Assignee: InVisage Technologies, Inc.Inventors: Edward Sargent, Gerasimos Konstantatos, Larissa Levina, Ian Howard, Ethan J. D. Klem, Jason Clifford
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Publication number: 20100133418Abstract: Optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit an array of conductive regions; and an optically sensitive material over at least a portion of the integrated circuit and in electrical communication with at least one conductive region of the array of conductive regions. Under another aspect, a method of forming a nanocrystalline film includes fabricating a plurality of nanocrystals having a plurality of first ligands attached to their outer surfaces; exchanging the first ligands for second ligands of different chemical composition than the first ligands; forming a film of the ligand-exchanged nanocrystals; removing the second ligands; and fusing the cores of adjacent nanocrystals in the film to form an electrical network of fused nanocrystals.Type: ApplicationFiled: August 24, 2006Publication date: June 3, 2010Inventors: Edward Sargent, Jason Clifford, Gerasimos Konstantatos, Ian Howard, Ethan J.D. Klem, Larissa Levina
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Publication number: 20100044676Abstract: A composite material is described. The composite material comprises semiconductor nanocrystals, and organic molecules that passivate the surfaces of the semiconductor nanocrystals. One or more properties of the organic molecules facilitate the transfer of charge between the semiconductor nanocrystals. A semiconductor material is described that comprises p-type semiconductor material including semiconductor nanocrystals. At least one property of the semiconductor material results in a mobility of electrons in the semiconductor material being greater than or equal to a mobility of holes. A semiconductor material is described that comprises n-type semiconductor material including semiconductor nanocrystals. At least one property of the semiconductor material results in a mobility of holes in the semiconductor material being greater than or equal to a mobility of electrons.Type: ApplicationFiled: April 20, 2009Publication date: February 25, 2010Applicant: InVisage Technologies, Inc.Inventors: Edward Hartley Sargent, Ghada Koleilat, Jiang Tang, Keith William Johnston, Andras Geza Pattantyus-Abraham, Gerasimos Konstantatos, Ethan Jacob Dukenfield Klem, Stefan Myrskog, Dean Delehanty MacNeil, Jason Paul Clifford, Larissa Levina
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Publication number: 20090305452Abstract: Optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit an array of conductive regions; and an optically sensitive material over at least a portion of the integrated circuit and in electrical communication with at least one conductive region of the array of conductive regions. Under another aspect, a method of forming a nanocrystalline film includes fabricating a plurality of nanocrystals having a plurality of first ligands attached to their outer surfaces; exchanging the first ligands for second ligands of different chemical composition than the first ligands; forming a film of the ligand-exchanged nanocrystals; removing the second ligands; and fusing the cores of adjacent nanocrystals in the film to form an electrical network of fused nanocrystals.Type: ApplicationFiled: February 27, 2009Publication date: December 10, 2009Inventors: Edward Sargent, Gerasimos Konstantatos, Larissa Levina, Ian Howard, Ethan J.D. Klem, Jason Clifford
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Publication number: 20070174939Abstract: Optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit an array of conductive regions; and an optically sensitive material over at least a portion of the integrated circuit and in electrical communication with at least one conductive region of the array of conductive regions. Under another aspect, a method of forming a nanocrystalline film includes fabricating a plurality of nanocrystals having a plurality of first ligands attached to their outer surfaces; exchanging the first ligands for second ligands of different chemical composition than the first ligands; forming a film of the ligand-exchanged nanocrystals; removing the second ligands; and fusing the cores of adjacent nanocrystals in the film to form an electrical network of fused nanocrystals.Type: ApplicationFiled: August 24, 2006Publication date: July 26, 2007Applicant: Edward SargentInventors: Edward Sargent, Gerasimos Konstantatos, Larissa Levina, Ian Howard, Ethan Klem, Jason Clifford
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Publication number: 20070132052Abstract: Optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit an array of conductive regions; and an optically sensitive material over at least a portion of the integrated circuit and in electrical communication with at least one conductive region of the array of conductive regions. Under another aspect, a method of forming a nanocrystalline film includes fabricating a plurality of nanocrystals having a plurality of first ligands attached to their outer surfaces; exchanging the first ligands for second ligands of different chemical composition than the first ligands; forming a film of the ligand-exchanged nanocrystals; removing the second ligands; and fusing the cores of adjacent nanocrystals in the film to form an electrical network of fused nanocrystals.Type: ApplicationFiled: August 24, 2006Publication date: June 14, 2007Applicant: Edward SargentInventors: Edward Sargent, Gerasimos Konstantatos, Larissa Levina, Ian Howard, Ethan Klem, Jason Clifford
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Publication number: 20060243959Abstract: The present invention provides of a three-dimensional bicontinuous heterostructure, a method of producing same, and the application of this structure towards the realization of photodetecting and photovoltaic devices working in the visible and the near-infrared. The three-dimensional bicontinuous heterostructure includes two interpenetrating layers which are spatially continuous, they are include only protrusions or peninsulas, and no islands. The method of producing the three-dimensional biontinuous heterostructure relies on forming an essentially planar continuous bottom layer of a first material; forming a layer of this first material on top of the bottom layer which is textured to produce protrusions for subsequent interpenetration with a second material, coating this second material onto this structure; and forming a final coating with the second material that ensures that only the second material is contacted by subsequent layer.Type: ApplicationFiled: January 9, 2006Publication date: November 2, 2006Inventors: Edward Sargent, Steve McDonald, Shiguo Zhang, Larissa Levina, Gerasimos Konstantatos, Paul Cyr