Patents by Inventor Tymofiy V Pastushkin
Tymofiy V Pastushkin 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: 20150030937Abstract: Nonaqueous electrolyte for high energy Li-ion batteries or batteries with lithium metal anode, in which the composition of additives are introduced to increase specific characteristics of lithium batteries including stability of the parameters during cycling and security of the battery operations, when the composition of the additives comprises the compounds from the class of esters, low molecular weight silicon quaternary ammonium salts, and macromolecular polymer organosilicon quaternary ammonium salts.Type: ApplicationFiled: February 27, 2014Publication date: January 29, 2015Applicant: ENERIZE CORPORATIONInventors: Elena Shembel, Irina M. Maksyuta, Volodymyr Redko, Tymofiy V. Pastushkin
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Publication number: 20140366943Abstract: Flexible optically transparent nano structured polymer material is based on the composition that includes the derivatives of polyurethanes, hardening agent, antistatic additive and modifiers. The structure of polymer includes nano and micro-domains and clusters of various sizes and configurations that are located in a certain order in the volume of the polymer and play the role of micro lenses that provide the concentration of the light and to concentration of light on the optical device and strengthen wave of optical radiation. The transparent polymer laminated, encapsulated or coated of incident light-facing surface of optical devices including the photovoltaic modules and imparts higher conversion efficiencies to photovoltaic modules, a high optical transparency, is resistant to the humidity and destructive effects of UV, has a good adhesion to the surface of the optical devices, and a good stability to deformation.Type: ApplicationFiled: April 2, 2014Publication date: December 18, 2014Applicant: ENERIZE CORPORATIONInventors: Elena Shembel, Aleksandra N. Shmyryeva, Volodymyr Redko, Tymofiy V. Pastushkin, Tamara T. Todosiychuk, Lydmyla F. Kosyanchuk
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Publication number: 20140248440Abstract: The invention relates to methods of gas detonation deposition (gas detonation explosion) applying coatings, especially layers of materials for electrochemical devices for use as electrodes in electrochemical energy generation and storage devices such as batteries, supercapacitors, photovoltaic cells, and the like. In the method of the gas detonation deposition the powders of the materials, which are deposited, are subjected to detonation with the explosion products flow. As a result, the powder particles gain a high kinetic energy and are deposited on a substrate, forming a high quality coating.Type: ApplicationFiled: May 15, 2014Publication date: September 4, 2014Applicant: ENERIZE CORPORATIONInventors: Elena M. SHEMBEL, Nickolai (Mykola) I. KLIUI, Volodymyr I. REDKO, Irina M. MAKSYUTA, Tymofiy V. PASTUSHKIN, Volodymyr P. TEMCHENKO
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Patent number: 8309024Abstract: A system for non-destructive determination of the degree of fluorination in carbon monofluoride (CFx) during the process of CFx synthesis is described. The system includes a measuring generator containing a capacitive sensor for measuring a respective capacitance, a base generator containing a capacitive sensor for measuring a base capacitance, and a processor for determining a difference between the respective capacitance and the base capacitance. The system is configured to determine the degree of fluorination based on the difference between the respective capacitance and the base capacitance.Type: GrantFiled: April 23, 2009Date of Patent: November 13, 2012Assignee: Enerize CorporationInventors: Volodymyr I Redko, Elena M Shembel, Volodymyr S Khandetskyy, Dayal T Meshri, Isaac A Angres, Robert Adams, Dmytro Sivtsov, Oxana V Redko, Tymofiy V Pastushkin
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Patent number: 8102181Abstract: Method and related device intended for rapid non-destructive testing of powdered materials with low electric conductivity such as cement and cement-based compositions through determination of their electrical properties. The invention involves an electromagnetic method, including an electronic circuit for generating an electric field in a capacitance probe that is inserted into the powder to be tested. Electrical properties of powdered materials are determined on the basis of a set of the values for a set of parameters including quality factor (Q-factor), capacitance, dissipation factor, and dielectric permeability of the material. These parameter values can be related to such characteristics as moisture content, particle size, and material composition. The method and device can indicate the differences between the samples with various quantities of unwanted components or reaction products, and the extent of sample aging.Type: GrantFiled: April 21, 2009Date of Patent: January 24, 2012Assignee: Enerize CorporationInventors: Volodymyr I Redko, Elena M Shembel, Volodymyr S Khandetskyy, Dmytro I Sivtsov, Tymofiy V Pastushkin, Oxana Redko, Bary Wilson
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Publication number: 20110104574Abstract: Nonaqueous electrolyte for high energy Li-ion batteries or batteries with lithium metal anode, in which the composition of additives are introduced to increase specific characteristics of lithium batteries including stability of the parameters during cycling and security of the battery operations, when the composition of the additives comprises the compounds from the class of esters, low molecular weight silicon quaternary ammonium salts, and macromolecular polymer organosilicon quaternary ammonium salts.Type: ApplicationFiled: July 8, 2010Publication date: May 5, 2011Applicant: Enerize CorporationInventors: Elena M. Shembel, Irina Maksyuta, Volodymyr Redko, Tymofiy V. Pastushkin
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Publication number: 20110017268Abstract: Flexible optically transparent nano structured polymer material is based on the composition that includes the derivatives of polyurethanes, hardening agent, antistatic additive and modifiers. The structure of polymer includes nano and micro-domains and clusters of various sizes and configurations that are located in a certain order in the volume of the polymer and play the role of micro lenses that provide the concentration of the light and to concentration of light on the optical device and strengthen wave of optical radiation. The transparent polymer laminated, encapsulated or coated of incident light-facing surface of optical devices including the photovoltaic modules and imparts higher conversion efficiencies to photovoltaic modules, a high optical transparency, is resistant to the humidity and destructive effects of UV, has a good adhesion to the surface of the optical devices, and a good stability to deformation.Type: ApplicationFiled: July 8, 2010Publication date: January 27, 2011Applicant: Enerize CorporationInventors: Elena M. Shembel, Aleksandra Shmyryeva, Tamara Todosiychuk, Ludmila Kosyanchuk, Volodymyr Redko, Tymofiy V. Pastushkin
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Publication number: 20100212402Abstract: Method and apparatus for precision non-destructive non-contact control of super small differences of pressure, which is used for non-destructive control of tightness of various products regardless of the method of sealing and the state of the internal volume of products, with the apparatus consisting of a body of the control unit of the device, working and control units, sensitive membrane, transparent window of the control unit, connecting pipes of the control and working chambers, electronic speckle interferometer, the base that is isolated from the vibration, and the electronic processing unit for monitoring results and presenting results on the display. The bending of the membrane characterizes the quality of sealing of the investigated object and is determined by the laser method of non-contact electronic speckle interferometry.Type: ApplicationFiled: February 16, 2010Publication date: August 26, 2010Applicant: Enerize CorporationInventors: Volodymyr I. Redko, Yurii V. Sokhach, Elena M. Shembel, Olexandr Kudrevatykh, Tymofiy V. Pastushkin, Vladimir Faustovich Rozhkovskyy, Oxana Red'ko
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Publication number: 20100129564Abstract: The present invention involves a method for deposition of thin film and electrochemically active layered coatings for use as components including electrodes and solid electrolytes for electrochemical generation and storage devices including batteries, supercapacitors, fuel cell, solar cell and the like. According to the present invention, evaporation of the starting materials in a reactive gaseous medium is accomplished by means of a gas discharge electron gun with a cold cathode. The electron beam has a given specific power corresponding to the evaporation temperature of the starting material. Deposition of the evaporated starting material onto the substrate in a pressure controlled reactive gaseous medium is carried out at a controlled temperature and rate of condensate formation. This temperature is dependant on the partial pressure of the reactive gas.Type: ApplicationFiled: April 22, 2008Publication date: May 27, 2010Applicant: Enerize CorporationInventors: Elena M. Shembel, Boris Tugay, Anatolii Demchyshyn, Volodymyr Redko, Tymofiy V. Pastushkin, Stanislav Denbnovetskyy, Vitalyy Melnyk, Igoz Melnyk, Alexandr Markevich
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Publication number: 20100092870Abstract: The invention described the highly conducting amorphous polymer materials which are based on the pure block-type copolymers, which contain polyethylene oxide and other chemically complementary blocks and form the amorphous hydrogen-bonded intramolecular polycomplexes, and those, filled by ion conductive materials, low-molecular-weight organic plasticizer and nanometer-scale inorganic particles. The block-type copolymers are preferably the linear triblock copolymers with a central block of PEO and two side blocks of chemically complementary polyacrylamide (PAAm) or poly(acrylic acid) (PAAc). Due to existence of long side PAAm chains and their interaction with a central crystallizable block of PEO, TBC bulk structure is amorphous and fully homogeneous. It can be represented as a totality of hydrogen-bonded segments of both polymer components, uniformly distributed in PAAm matrix. Presented polymer materials can be used for solid polymer electrolyte for DSSC solar cells and lithium batteries.Type: ApplicationFiled: September 12, 2009Publication date: April 15, 2010Applicant: Enerize CorporationInventors: Elena M. Shembel, Tatyana Zheltonozhskaya, Larisa R. Kunitskaya, Svetlana A. Berkova, Tymofiy V. Pastushkin, Volodymyr Redko, Irina Maksyula, Nataliya M. Permyakova, Alexei Yu. Kolendo
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Publication number: 20100021720Abstract: Novel effective method of vacuum evaporation and followed deposition of transparent conductive oxides on the polymer basis allows achieve the high technical and operational parameters of ITO film: transparency, conductivity, a high adhesion to a polymer substrate (especially in limiting the temperature of deposition no more than 60° C.), resistance to thermal shock, thermal cycles, humidity, etc. and providing relatively low cost without the use of precious metals. The transparent conductive oxides which are obtained according presented invention is generally characterized by nano structures with the size of nano crystals from 6 nm up to 25 nm. wherein a nano structure is distributed evenly across the surface. The value of transparency of the transparent conductive oxides ITO that were received according presented invention was 92% when the value of surface resistance was 12 ohms/?.Type: ApplicationFiled: July 24, 2009Publication date: January 28, 2010Inventors: Elena M. Shembel, Aleksandra Shimyryeva, Mykhailo Dusheyko, Tymofiy V. Pastushkin, Volodymyr Redko
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Publication number: 20090267623Abstract: The present invention is a method and related automatic system for non-destructive determination of physical-chemical properties of powdered in particular as related to the quality control of powdered materials used in battery industry, for example determination of carbon monofluoride (CFx) degree of fluorination during the process of CFx synthesis.Type: ApplicationFiled: April 23, 2009Publication date: October 29, 2009Applicant: Enerize CorporationInventors: Volodymyr I. Redko, Elena M. Shembel, Volodymyr S. Khandetskyy, Dayal T. Meshri, Isaac A. Angres, Robert Adams, Dmytro Sivtsov, Oxana V. Red'ko, Tymofiy V. Pastushkin
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Publication number: 20090000656Abstract: The present invention involves the use of specially formulated polymers into which anti-static and conducting metal additives have been incorporated to create a flexible, optically transparent cover for mechanical protection of the incident light-facing surface of the photovoltaic cells. The polymer coating imparts higher conversion efficiencies to photovoltaic cells and modules and is resistant to the destructive effects of UV. In the preferred embodiment, the surface comprising a flexible optically transparent polymer cover has a relief or “crinkle coat” structure morphology comprising a random set of rounded ridge and valley features that impart higher conversion efficiencies to photovoltaic cells and modules due to a concentration affect. Application of the present invention yields mono-crystalline photovoltaic modules that have conversion efficiencies as high as 20%, or more, as compared to 13-14% for presently available commercial module designs.Type: ApplicationFiled: April 15, 2008Publication date: January 1, 2009Applicant: Enerize CorporationInventors: Elena M. Shembel, Aleksandra Shmyryeva, Tamara Todosiichuk, Ludmila Kosyanchuk, Tymofiy V. Pastushkin, Anatoliy Alpatov, Volodymyr I. Redko
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Publication number: 20080308144Abstract: The present invention is an integral thin-layer photovoltaic device, comprising a substrate with a coated layer of semiconductor materials, for example amorphous silicon of i-type conductivity, and made up of alternating areas, having different type of conductivity, different amounts of doping and/or band gap width, transparent and clear coatings on the front side, and electrical contacts. The alternating areas are formed in the initial film of semiconductor material as counter-comb, interleaved structures in the horizontal plane, and heterostructural areas are manufactured with variable ratios of crystal, micro-crystal, nano-crystalline and amorphous phases.Type: ApplicationFiled: August 13, 2008Publication date: December 18, 2008Applicant: Enerize CorporationInventors: Elena M. Shembel, Aleksandr Skurtul, Aleksandra Shmyryeva, Tymofiy V. Pastushkin, Anatoliy Alpatov