Patents by Inventor Nikita Valerievich Kruglikov
Nikita Valerievich Kruglikov 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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Publication number: 20230305350Abstract: The present invention relates to devices that provide a color change under the influence of an electric voltage, in particular to an electrochromic device and a method for manufacturing such a device. Disclosed is a method for manufacturing an electrochromic device comprising at least two electrodes that are flexible and optically transparent with a hermetically closed space between the electrodes filled with an electrochromic composition, which may contain transparent and insoluble microparticles that function as spacers.Type: ApplicationFiled: June 1, 2023Publication date: September 28, 2023Inventors: Evgeniy Vladimirovich Vasiliev, Sergey Olegovich Borisov, Pavel Anatolievich Zaikin, Nikita Valerievich Kruglikov
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Publication number: 20230251506Abstract: Flexible plastic screen for glasses, sunglasses or helmet faceshields with controlled light transmission based on applied electrical voltage. The screen consists of two transparent flexible conductive polymer electrodes disposed and an electrochromic layer disposed between them. The electrochromic layer is a homogeneous mixture of active electrochromic components dissolved in a polymer matrix. The electrochromic screen is operable to vary the light transmission of any wearable electro-optical devices, such as the glasses, for creating an effect of a blackout for augmented/virtual reality glasses.Type: ApplicationFiled: April 14, 2023Publication date: August 10, 2023Inventors: Evgeniy Vladimirovich Vasiliev, Pavel Anatolievich Zalkin, Nikita Valerievich Kruglikov, Christian Lorentzen
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Patent number: 11698565Abstract: The invention relates to devices that provide a color change under the influence of an electric voltage, in particular to an electrochromic device and a method for manufacturing such a device. Disclosed is the method for manufacturing an electrochromic device comprising at least two electrodes that are flexible and optically transparent with a hermetically closed space between the electrodes filled with an electrochromic composition that may contain transparent and insoluble microparticles that function as spacers.Type: GrantFiled: June 29, 2020Date of Patent: July 11, 2023Assignee: Vitro Flat Glass LLCInventors: Evgeniy Vladimirovich Vasiliev, Sergey Olegovich Borisov, Pavel Anatolievich Zaikin, Nikita Valerievich Kruglikov
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Patent number: 11656482Abstract: Flexible plastic screen for glasses, sunglasses or helmet faceshields with controlled light transmission based on applied electrical voltage. The screen consists of two transparent flexible conductive polymer electrodes disposed and an electrochromic layer disposed between them. The electrochromic layer is a homogeneous mixture of active electrochromic components dissolved in a polymer matrix. The electrochromic screen is operable to vary the light transmission of any wearable electro-optical devices, such as the glasses, for creating an effect of a blackout for augmented/virtual reality glasses.Type: GrantFiled: July 18, 2019Date of Patent: May 23, 2023Assignee: Vitro Flat Glass LLCInventors: Evgeniy Vladimirovich Vasiliev, Pavel Anatolievich Zaikin, Nikita Valerievich Kruglikov, Christian Lorentzen
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Publication number: 20200333676Abstract: The invention relates to devices that provide a color change under the influence of an electric voltage, in particular to an electrochromic device and a method for manufacturing such a device. Disclosed is the method for manufacturing an electrochromic device comprising at least two electrodes that are flexible and optically transparent with a hermetically closed space between the electrodes filled with an electrochromic composition that may contain transparent and insoluble microparticles that function as spacers.Type: ApplicationFiled: June 29, 2020Publication date: October 22, 2020Inventors: Evgeniy Vladimirovich VASILIEV, Sergey Olegovich BORISOV, Pavel Anatolievich ZAIKIN, Nikita Valerievich KRUGLIKOV
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Patent number: 10698285Abstract: The invention relates to devices that provide a color change under the influence of an electric voltage, in particular to an electrochromic device and a method for manufacturing such a device. Disclosed is the method for manufacturing an electrochromic device comprising at least two electrodes that are flexible and optically transparent with a hermetically closed space between the electrodes filled with an electrochromic composition that may contain transparent and insoluble microparticles that function as spacers.Type: GrantFiled: June 10, 2019Date of Patent: June 30, 2020Assignee: IGLASS TECHNOLOGY, INC.Inventors: Evgeniy Vladimirovich Vasiliev, Sergey Olegovich Borisov, Pavel Anatolievich Zaikin, Nikita Valerievich Kruglikov
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Publication number: 20200050023Abstract: Flexible plastic screen for glasses, sunglasses or helmet faceshields with controlled light transmission based on applied electrical voltage. The screen consists of two transparent flexible conductive polymer electrodes disposed and an electrochromic layer disposed between them. The electrochromic layer is a homogeneous mixture of active electrochromic components dissolved in a polymer matrix. The electrochromic screen is operable to vary the light transmission of any wearable electro-optical devices, such as the glasses, for creating an effect of a blackout for augmented/virtual reality glasses.Type: ApplicationFiled: July 18, 2019Publication date: February 13, 2020Inventors: Evgeniy Vladimirovich VASILIEV, Pavel Anatolievich ZAIKIN, Nikita Valerievich KRUGLIKOV, Christian LORENTZEN
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Publication number: 20190292445Abstract: The invention relates to devices that provide a color change under the influence of an electric voltage, in particular to an electrochromic device and a method for manufacturing such a device. Disclosed is the method for manufacturing an electrochromic device comprising at least two electrodes that are flexible and optically transparent with a hermetically closed space between the electrodes filled with an electrochromic composition that may contain transparent and insoluble microparticles that function as spacers.Type: ApplicationFiled: June 10, 2019Publication date: September 26, 2019Inventors: Evgeniy Vladimirovich Vasiliev, Sergey Olegovich Borisov, Pavel Anatolievich Zaikin, Nikita Valerievich Kruglikov
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Publication number: 20190233721Abstract: Electrochromic compositions for use in devices with electrically controlled absorption of light such as light filters of variable optical density, light emission modulators, and information image displays. The described electrochromic compositions may be used, for example, for creating light-transmitting coatings of buildings for controlling indoor microclimate by regulating the flow of natural light. Specifically, described is an exemplary organic electrochromic composition that is based on biocompatible and biodegradable components and is characterized by an increased service life, a high rate of light-transmission change. The described electrochromic compositions may be prepared in a wide range of light-absorption spectra and coating colors.Type: ApplicationFiled: April 10, 2019Publication date: August 1, 2019Inventors: Evgeniy Vladimirovich Vasiliev, Sergey Olegovich Borisov, Pavel Anatolievich Zaikin, Nikita Valerievich Kruglikov
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Patent number: 10359647Abstract: Flexible plastic screen for glasses, sunglasses or helmet faceshields with controlled light transmission based on applied electrical voltage. The screen consists of two transparent flexible conductive polymer electrodes disposed and an electrochromic layer disposed between them. The electrochromic layer is a homogeneous mixture of active electrochromic components dissolved in a polymer matrix. The electrochromic screen is operable to vary the light transmission of any wearable electro-optical devices, such as the glasses, for creating an effect of a blackout for augmented/virtual reality glasses.Type: GrantFiled: March 13, 2017Date of Patent: July 23, 2019Assignee: iGlass Technology, Inc.Inventors: Evgeniy Vladimirovich Vasiliev, Pavel Anatolievich Zaikin, Nikita Valerievich Kruglikov, Christian Lorentzen
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Patent number: 10344208Abstract: The invention relates to devices that provide a color change under the influence of an electric voltage, in particular to an electrochromic device and a method for manufacturing such a device. Disclosed is the method for manufacturing an electrochromic device comprising at least two electrodes that are flexible and optically transparent with a hermetically closed space between the electrodes filled with an electrochromic composition that may contain transparent and insoluble microparticles that function as spacers.Type: GrantFiled: June 9, 2014Date of Patent: July 9, 2019Assignee: iGlass Technology, Inc.Inventors: Evgeniy Vladimirovich Vasiliev, Sergey Olegovich Borisov, Pavel Anatolievich Zaikin, Nikita Valerievich Kruglikov
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Patent number: 10294415Abstract: Electrochromic compositions for use in devices with electrically controlled absorption of light such as light filters of variable optical density, light emission modulators, and information image displays. The described electrochromic compositions may be used, for example, for creating light-transmitting coatings of buildings for controlling indoor microclimate by regulating the flow of natural light. Specifically, described is an exemplary organic electrochromic composition that is based on biocompatible and biodegradable components and is characterized by an increased service life, a high rate of light-transmission change. The described electrochromic compositions may be prepared in a wide range of light-absorption spectra and coating colors.Type: GrantFiled: June 9, 2014Date of Patent: May 21, 2019Assignee: iGlass Technology, Inc.Inventors: Evgeniy Vladimirovich Vasiliev, Sergey Olegovich Borisov, Pavel Anatolievich Zaikin, Nikita Valerievich Kruglikov
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Publication number: 20180004013Abstract: Flexible plastic screen for glasses, sunglasses or helmet faceshields with controlled light transmission based on applied electrical voltage. The screen consists of two transparent flexible conductive polymer electrodes disposed and an electrochromic layer disposed between them. The electrochromic layer is a homogeneous mixture of active electrochromic components dissolved in a polymer matrix. The electrochromic screen is operable to vary the light transmission of any wearable electro-optical devices, such as the glasses, for creating an effect of a blackout for augmented/virtual reality glasses.Type: ApplicationFiled: March 13, 2017Publication date: January 4, 2018Inventors: EVGENIY VLADIMIROVICH VASILIEV, PAVEL ANATOLIEVICH ZAIKIN, NIKITA VALERIEVICH KRUGLIKOV, CHRISTIAN LORENTZEN
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Publication number: 20150355519Abstract: The invention relates to devices that provide a color change under the influence of an electric voltage, in particular to an electrochromic device and a method for manufacturing such a device. Disclosed is the method for manufacturing an electrochromic device comprising at least two electrodes that are flexible and optically transparent with a hermetically closed space between the electrodes filled with an electrochromic composition that may contain transparent and insoluble microparticles that function as spacers.Type: ApplicationFiled: June 9, 2014Publication date: December 10, 2015Inventors: Evgeniy Vladimirovich Vasiliev, Sergey Olegovich Borisov, Pavel Anatolievich Zaikin, Nikita Valerievich Kruglikov
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Publication number: 20150353819Abstract: Electrochromic compositions for use in devices with electrically controlled absorption of light such as light filters of variable optical density, light emission modulators, and information image displays. The described electrochromic compositions may be used, for example, for creating light-transmitting coatings of buildings for controlling indoor microclimate by regulating the flow of natural light. Specifically, described is an exemplary organic electrochromic composition that is based on biocompatible and biodegradable components and is characterized by an increased service life, a high rate of light-transmission change. The described electrochromic compositions may be prepared in a wide range of light-absorption spectra and coating colors.Type: ApplicationFiled: June 9, 2014Publication date: December 10, 2015Inventors: Evgeniy Vladimirovich Vasiliev, Sergey Olegovich Borisov, Pavel Anatolievich Zaikin, Nikita Valerievich Kruglikov