Patents by Inventor Ian Howard
Ian Howard 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: 10290190Abstract: A controller including a temperature feedback mechanism is coupled to a client device. The temperature feedback mechanism is configured to be heated or cooled based on instructions received from the client device and contacts a portion of a user's body. In various embodiments, the temperature feedback mechanism is a Peltier device integrated into the controller. Various applications executing on the client device may implement instructions that, when executed by the client device, heat or cool the controller coupled to the client device to augment other content presented by an application.Type: GrantFiled: July 31, 2017Date of Patent: May 14, 2019Assignee: Facebook, Inc.Inventors: Zachary Ian Howard, Erich James Owens
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Patent number: 10263041Abstract: Various embodiment include optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit having 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 film includes a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused. Additional devices and methods are described.Type: GrantFiled: May 24, 2018Date of Patent: April 16, 2019Assignee: InVisage Technologies, Inc.Inventors: Edward Hartley Sargent, Jason Paul Clifford, Gerasimos Konstantatos, Ian Howard, Ethan J.D. Klem, Larissa Levina
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Publication number: 20190067377Abstract: Various embodiment include optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit having 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 film includes a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused. Additional devices and methods are described.Type: ApplicationFiled: May 24, 2018Publication date: February 28, 2019Inventors: Edward Hartley Sargent, Jason Paul Clifford, Gerasimos Konstantatos, Ian Howard, Ethan J.D. Klem, Larissa Levina
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Publication number: 20190063767Abstract: An evaporative cooler having a pressurized water distribution system that provides even water distribution to evaporative media pads within the evaporative cooler, even when the evaporative pads are canted and/or are not in perfect alignment. The pressurized water distribution system generally includes a distribution assembly with a pressurized flow path portion and a non-pressurized flow path portion, and a supply assembly. The evaporative cooler may also include other features that enhance aesthetics and/or cooling capacity, such as supplemental evaporative media pads, a perforated lid, an internal retaining frame, angled louvers, and/or a dropper that allows for a low-profile installation on a roof of a building or other structure.Type: ApplicationFiled: August 31, 2018Publication date: February 28, 2019Inventors: Daniel Robert HAYNES, Finn Gascoigne WOODHOUSE, Ian Howard PENDERGRAST, Lorinda Yvonne ABEYARATHNA, Robert William GILBERT, Shane Antony HARRIS, Shoji SINCLAIR
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Publication number: 20190035234Abstract: A controller including a temperature feedback mechanism is coupled to a client device. The temperature feedback mechanism is configured to be heated or cooled based on instructions received from the client device and contacts a portion of a user's body. In various embodiments, the temperature feedback mechanism is a Peltier device integrated into the controller. Various applications executing on the client device may implement instructions that, when executed by the client device, heat or cool the controller coupled to the client device to augment other content presented by an application.Type: ApplicationFiled: July 31, 2017Publication date: January 31, 2019Inventors: Zachary Ian Howard, Erich James Owens
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Publication number: 20180213935Abstract: The present invention relates to an impact protection device clip configured to locate an impact protection device about a post of a racking system. The post of such racking system includes a cross-sectional wall profile defining a chamber with an opening. The clip includes a body arranged in use to extend through said opening of the post. The body further includes first and second attachment devices for enabling attachment of the clip to the impact protection device, and at least one contact. The at least one contact is configured so that if the protection device is moved in a first direction causing a part of the protection device to be pulled generally away from the post, the contact engages against an inner face of the cross-sectional wall profile of the post so that the engagement between the contact of the clip and the post resists further movement of the protection device in the first direction.Type: ApplicationFiled: July 19, 2016Publication date: August 2, 2018Inventors: Ian Howard PENDERGRAST, Paul HUXTABLE
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Patent number: 10008543Abstract: Various embodiment include optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit having 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 film includes a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused. Additional devices and methods are described.Type: GrantFiled: October 3, 2017Date of Patent: June 26, 2018Assignee: INVISAGE TECHNOLOGIES, INC.Inventors: Edward Hartley Sargent, Jason Paul Clifford, Gerasimos Konstantatos, Ian Howard, Ethan J. D. Klem, Larissa Levina
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Publication number: 20180033827Abstract: Various embodiment include optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit having 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 film includes a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused. Additional devices and methods are described.Type: ApplicationFiled: October 3, 2017Publication date: February 1, 2018Inventors: Edward Hartley Sargent, Jason Paul Clifford, Gerasimos Konstantatos, Ian Howard, Ethan J.D. Klem, Larissa Levina
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Patent number: 9806131Abstract: Various embodiment include optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit having 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 film includes a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused. Additional devices and methods are described.Type: GrantFiled: February 13, 2017Date of Patent: October 31, 2017Assignee: INVISAGE TECHNOLOGIES, INC.Inventors: Edward Hartley Sargent, Jason Paul Clifford, Gerasimos Konstantatos, Ian Howard, Ethan J. D. Klem, Larissa Levina
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Publication number: 20170154928Abstract: Various embodiment include optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit having 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 film includes a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused. Additional devices and methods are described.Type: ApplicationFiled: February 13, 2017Publication date: June 1, 2017Inventors: Edward Hartley Sargent, Jason Paul Clifford, Gerasimos Konstantatos, Ian Howard, Ethan J.D. Klem, Larissa Levina
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Patent number: 9570502Abstract: Various embodiment include optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit having 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 film includes a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused. Additional devices and methods are described.Type: GrantFiled: June 20, 2016Date of Patent: February 14, 2017Assignee: InVisage Technologies, Inc.Inventors: Edward Hartley Sargent, Jason Paul Clifford, Gerasimos Konstantatos, Ian Howard, Ethan J. D. Klem, Larissa Levina
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Publication number: 20160369155Abstract: Inhibiting precipitation of salt from an aqueous solution by providing an aqueous solution of salt dissolved therein, and contacting the aqueous solution with an amount of an organic dinitrile compound at a concentration sufficient to inhibit precipitation of crystallized salt from the aqueous solution under a set of conditions. The method of may be useful in a subterranean formation drilling operation, a subterranean formation treatment operation or a squeeze treatment. The organic dinitrile compound may be present in the aqueous solution at less than about 2000 ppm, or an amount greater than about 100 ppm. In some embodiments, the organic dinitrile compound is admixed with a corrosion inhibitor.Type: ApplicationFiled: September 6, 2016Publication date: December 22, 2016Inventors: Hans Klas Joakim Angman, Aiman Kamarazuman, Ian Howard Gilbert
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Publication number: 20160300880Abstract: Various embodiment include optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit having 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 film includes a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused. Additional devices and methods are described.Type: ApplicationFiled: June 20, 2016Publication date: October 13, 2016Inventors: Edward Hartley Sargent, Jason Paul Clifford, Gerasimos Konstantatos, Ian Howard, Ethan J.D. Klem, Larissa Levina
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Patent number: 9373736Abstract: Various embodiment include optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit having 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 film includes a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused. Additional devices and methods are described.Type: GrantFiled: June 4, 2015Date of Patent: June 21, 2016Assignee: InVisage Technologies, Inc.Inventors: Edward Hartley Sargent, Jason Paul Clifford, Gerasimos Konstantatos, Ian Howard, Ethan J. D. Klem, Larissa Levina
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Publication number: 20150368544Abstract: Inhibiting precipitation of salt from an aqueous solution by providing an aqueous solution of salt dissolved therein, and contacting the aqueous solution with an amount of an organic dinitrile compound at a concentration sufficient to inhibit precipitation of crystallized salt from the aqueous solution under a set of conditions. The method of may be useful in a subterranean formation drilling operation, a subterranean formation treatment operation or a squeeze treatment. The organic dinitrile compound may be present in the aqueous solution at less than about 2000 ppm, or an amount greater than about 100 ppm. In some embodiments, the organic dinitrile compound is admixed with a corrosion inhibitor.Type: ApplicationFiled: June 24, 2014Publication date: December 24, 2015Inventors: HANS KLAS JOAKIM ANGMAN, AIMAN KAMARAZUMAN, IAN HOWARD GILBERT
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Publication number: 20150280033Abstract: Various embodiment include optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit having 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 film includes a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused. Additional devices and methods are described.Type: ApplicationFiled: June 4, 2015Publication date: October 1, 2015Inventors: Edward Hartley Sargent, Jason Paul Clifford, Gerasimos Konstantatos, Ian Howard, Ethan J.D. Klem, Larissa Levina
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Patent number: 9054246Abstract: Various embodiment include optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit having 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 film includes a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused. Additional devices and methods are described.Type: GrantFiled: May 12, 2014Date of Patent: June 9, 2015Assignee: InVisage Technologies, Inc.Inventors: Edward Hartley Sargent, Jason Paul Clifford, Gerasimos Konstantatos, Ian Howard, Ethan J. D. Klem, Larissa Levina
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Publication number: 20140291608Abstract: Various embodiment include optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit having 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 film includes a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused. Additional devices and methods are described.Type: ApplicationFiled: May 12, 2014Publication date: October 2, 2014Applicant: InVisage Technologies, Inc.Inventors: Edward Hartley Sargent, Jason Paul Clifford, Gerasimos Konstantatos, Ian Howard, Ethan J.D. Klem, Larissa Levina
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Patent number: 8724366Abstract: Various embodiment include optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit having 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 film includes a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused. Additional devices and methods are described.Type: GrantFiled: March 21, 2013Date of Patent: May 13, 2014Assignee: InVisage Technologies, Inc.Inventors: Edward Hartley Sargent, Jason Paul Clifford, Gerasimos Konstantatos, Ian Howard, Ethan J. D. Klem, Larissa Levina
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Publication number: 20130228749Abstract: Various embodiment include optical and optoelectronic devices and methods of making same. Under one aspect, an optical device includes an integrated circuit having 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 film includes a network of fused nanocrystals, the nanocrystals having a core and an outer surface, wherein the core of at least a portion of the fused nanocrystals is in direct physical contact and electrical communication with the core of at least one adjacent fused nanocrystal, and wherein the film has substantially no defect states in the regions where the cores of the nanocrystals are fused. Additional devices and methods are described.Type: ApplicationFiled: March 21, 2013Publication date: September 5, 2013Applicant: InVisage Technologies, Inc.Inventors: Edward Hartley Sargent, Jason Paul Clifford, Gerasimos Konstantatos, Ian Howard, Ethan J.D. Klem, Larissa Levina