专利快速检索-快速检索全球专利，免费商用专利数据库-IPRDB

1. 发明申请

US20090267623A1 Method and automatic system for non-destructive determination physical-chemical properties of powdered materials 有权
标题翻译：粉末材料的非破坏性物理化学性质的方法和自动化系统
公开(公告)号：US20090267623A1
公开(公告)日：2009-10-29
申请号：US12386823
申请日：2009-04-23
申请人： 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
发明人： 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
IPC分类号： G01R27/26
CPC分类号： G01N27/221
摘要： 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. The invention consists of: scanner, which is used for movable measuring transducer within three co-ordinates; measuring generator containing electro capacitive sensor, which is used as an element of a resonance circuit; base generator similar (identical with) to the measuring one; block for subtraction the frequencies of the measuring and base generators; block of measuring the Q-factor of the resonance circuit together with an electro capacitive sensor; block for identifying extramal point of dependence of capacitive sensor capacitance upon time; block for comparative analysis of the Q-factor of the resonance circuit of the measuring autogenerator and capacitance of capacitive sensor; block for extrapolation of time dependence of capacitance of capacitive sensor at the moment when it is inserted into powder; block for computing the difference between the factual and extrapolated values of capacitance of capacitive sensor while the sensor is being inserted into powder; calibration block and registration block.
摘要翻译：本发明是一种方法和相关的自动化系统，用于非破坏性地确定粉末的物理化学性质，特别是与电池工业中使用的粉末材料的质量控制有关，例如氟化一氟化碳（CFx）的测定在CFx合成过程中。本发明包括：扫描仪，用于三坐标内的可移动测量传感器; 含有电容式传感器的测量发生器，其用作谐振电路的元件; 基座发生器与测量仪相似（相同）; 用于减去测量和基础发生器的频率的块; 与电容式传感器一起测量谐振电路的Q因子的块; 用于识别电容式传感器电容随时间的依赖性的外部块; 测量自动发生器的谐振电路的Q因子和电容式传感器的电容的比较分析块; 用于插入电容式传感器插入粉末时的电容时间依赖性的块; 块，用于计算传感器插入粉末时电容式传感器电容的事实和外推值之间的差异; 校准块和注册块。

2. 发明申请

US20090000656A1 Photovoltaic Module 审中-公开
标题翻译：光伏组件
公开(公告)号：US20090000656A1
公开(公告)日：2009-01-01
申请号：US12082859
申请日：2008-04-15
申请人： Elena M. Shembel , Aleksandra Shmyryeva , Tamara Todosiichuk , Ludmila Kosyanchuk , Tymofiy V. Pastushkin , Anatoliy Alpatov , Volodymyr I. Redko
发明人： Elena M. Shembel , Aleksandra Shmyryeva , Tamara Todosiichuk , Ludmila Kosyanchuk , Tymofiy V. Pastushkin , Anatoliy Alpatov , Volodymyr I. Redko
IPC分类号： H01L31/042
CPC分类号： C08G18/4238 , C09D175/06 , H01L31/048 , H01L31/0547 , Y02E10/52
摘要： 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. Components of the present invention can be used to increase conversion efficiency of mono-crystalline, multi-crystalline and nano-crystalline, as well as amorphous silicon photovoltaic cells and solar cells based on non-silicon systems such as CIGS (copper indium gallium selenide).
摘要翻译：本发明涉及使用特殊配制的聚合物，其中掺入了防静电和导电金属添加剂以形成柔性的光学透明盖，用于光伏电池的入射光面的表面的机械保护。聚合物涂层赋予光伏电池和模块更高的转换效率，并且抗紫外线的破坏作用。在优选实施例中，包括柔性光学透明聚合物盖的表面具有浮雕或“皱纹涂层”结构形态，包括由于浓度影响而赋予光伏电池和模块更高的转换效率的随机的圆形脊和谷特征。本发明的应用产生具有高达20％或更高转换效率的单晶光伏模块，而目前可用的商业模块设计的转换效率为13-14％。本发明的组分可以用于提高单晶，多晶和纳米晶体以及非晶硅光伏电池和基于非硅系统的诸如CIGS（铜铟镓硒）的太阳能电池的转换效率，。

3. 发明申请

US20100212402A1 Method and apparatus for precision non-destructive non-contact control of super small differences of pressure 审中-公开
标题翻译：精密非破坏性非接触式控制方法与装置超小压差
公开(公告)号：US20100212402A1
公开(公告)日：2010-08-26
申请号：US12658830
申请日：2010-02-16
申请人： Volodymyr I. Redko , Yurii V. Sokhach , Elena M. Shembel , Olexandr Kudrevatykh , Tymofiy V. Pastushkin , Vladimir Faustovich Rozhkovskyy , Oxana Red'ko
发明人： Volodymyr I. Redko , Yurii V. Sokhach , Elena M. Shembel , Olexandr Kudrevatykh , Tymofiy V. Pastushkin , Vladimir Faustovich Rozhkovskyy , Oxana Red'ko
IPC分类号： G01N7/00 , G01N21/41
CPC分类号： G01M3/38 , G01L9/0077
摘要： 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.
摘要翻译：用于精密无损非接触式控制的超小压差方法和装置，无论密封方式如何，以及产品内部体积的状态，都可用于各种产品的密封性的无损控制。由装置的控制单元的主体，工作和控制单元，敏感膜，控制单元的透明窗口，控制和工作室的连接管，电子散斑干涉仪，与振动隔离的基座组成的装置，以及用于监视结果并在显示器上呈现结果的电子处理单元。膜的弯曲表征了所研究物体的密封质量，并且通过非接触电子散斑干涉测量的激光方法来确定。

4. 发明申请

US20110017268A1 Transparent polymer materials for encapsulation of optical devices and photovoltaic module that uses this polymer 审中-公开
标题翻译：用于封装光学器件的透明聚合物材料和使用该聚合物的光伏模块
公开(公告)号：US20110017268A1
公开(公告)日：2011-01-27
申请号：US12803953
申请日：2010-07-08
申请人： Elena M. Shembel , Aleksandra Shmyryeva , Tamara Todosiychuk , Ludmila Kosyanchuk , Volodymyr Redko , Tymofiy V. Pastushkin
发明人： Elena M. Shembel , Aleksandra Shmyryeva , Tamara Todosiychuk , Ludmila Kosyanchuk , Volodymyr Redko , Tymofiy V. Pastushkin
IPC分类号： H01L31/052 , B32B27/40 , G02B1/10 , C08L75/06
CPC分类号： H01L31/0481 , C08G18/3206 , C08G18/4238 , C08G18/6644 , C08G18/73 , C09D175/04 , G02B1/04 , H01G9/2077 , H01L51/448 , Y02E10/542 , Y10T428/268 , Y10T428/31551 , C08L75/04
摘要： 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. The transparent polymer materials can be used to increase conversion efficiency of mono-crystalline, multi-crystalline and nana-crystalline, as well as amorphous silicon and based on non-silicon systems such as CIGS solar cells, DSSC and organic.
摘要翻译：灵活的光学透明纳米结构聚合物材料基于包括聚氨酯衍生物，硬化剂，抗静电添加剂和改性剂的组合物。聚合物的结构包括各种尺寸和构型的纳米和微区域和簇，其以聚合物的体积中的一定次序定位，并起到提供光的浓度和光浓度的微透镜的作用光学装置和强光波长的光辐射。包含光伏组件的光学器件的入射光面向表面的透明聚合物，对光伏模块赋予更高的转换效率，高的光学透明度，耐紫外线的湿度和破坏作用具有良好的附着力到光学器件的表面，并且对变形具有良好的稳定性。透明聚合物材料可用于提高单晶，多晶和纳米结晶以及非晶硅和基于非硅系统（如CIGS太阳能电池，DSSC和有机物）的转换效率。

5. 发明申请

US20110104574A1 Nonaqueous electrolyte for lithium Ion and lithium metal batteries 审中-公开
标题翻译：锂离子和锂金属电池用非水电解液
公开(公告)号：US20110104574A1
公开(公告)日：2011-05-05
申请号：US12803952
申请日：2010-07-08
申请人： Elena M. Shembel , Irina Maksyuta , Volodymyr Redko , Tymofiy V. Pastushkin
发明人： Elena M. Shembel , Irina Maksyuta , Volodymyr Redko , Tymofiy V. Pastushkin
IPC分类号： H01M10/0562 , H01M10/0565
CPC分类号： H01M10/0565 , H01M10/052 , H01M10/0525 , H01M10/0567
摘要： 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.
摘要翻译：用于高能量锂离子电池的非水电解质或具有锂金属阳极的电池，其中引入添加剂的组成以增加锂电池的特定特性，包括循环期间参数的稳定性和电池操作的安全性，当组合物添加剂包括来自酯类，低分子量硅季铵盐和大分子聚合物有机硅季铵盐的化合物。

6. 发明申请

US20080308144A1 Integrated thin-layer photovoltaic module 审中-公开
标题翻译：集成薄层光伏模块
公开(公告)号：US20080308144A1
公开(公告)日：2008-12-18
申请号：US12228485
申请日：2008-08-13
申请人： Elena M. Shembel , Aleksandr Skurtul , Aleksandra Shmyryeva , Tymofiy V. Pastushkin , Anatoliy Alpatov
发明人： Elena M. Shembel , Aleksandr Skurtul , Aleksandra Shmyryeva , Tymofiy V. Pastushkin , Anatoliy Alpatov
IPC分类号： H01L31/00
CPC分类号： H01L31/075 , H01L31/202 , Y02E10/548 , Y02P70/521
摘要： 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. The present invention is distinguished over prior art by several characteristics and advantages including a decreased number of process operations in its fabrication or manufacture, reduced consumption of semi-conductor material, simplified fabrication process, increased efficiency of solar energy conversion into electrical energy, and increased reliability.
摘要翻译：本发明是一种整体薄层光电器件，其包括具有半导体材料的涂层的衬底，例如具有i型导电性的非晶硅，并且由交替的区域组成，具有不同类型的导电性，不同量的掺杂和/或带隙宽度，前侧透明和透明涂层，以及电触点。在半导体材料的初始膜中形成交替区域作为水平面中的反梳状交错结构，并且以可变比例的晶体，微晶，纳米晶体和非晶相制造异质结构区域。本发明通过几个特性和优点来区分，包括其制造或制造中的工艺操作数量减少，半导体材料的消耗减少，简化的制造工艺，提高的太阳能转换成电能的效率以及增加的可靠性。

7. 发明申请

US20100092870A1 Solid polymer electrolyte for solar cells and lithium batteries 有权
标题翻译：用于太阳能电池和锂电池的固体聚合物电解质
公开(公告)号：US20100092870A1
公开(公告)日：2010-04-15
申请号：US12584733
申请日：2009-09-12
申请人： Elena M. Shembel , Tatyana Zheltonozhskaya , Larisa R. Kunitskaya , Svetlana A. Berkova , Tymofiy V. Pastushkin , Volodymyr Redko , Irina Maksyula , Nataliya M. Permyakova , Alexei Yu. Kolendo
发明人： Elena M. Shembel , Tatyana Zheltonozhskaya , Larisa R. Kunitskaya , Svetlana A. Berkova , Tymofiy V. Pastushkin , Volodymyr Redko , Irina Maksyula , Nataliya M. Permyakova , Alexei Yu. Kolendo
IPC分类号： H01M6/18
CPC分类号： H01M10/0565 , H01M10/052 , H01M10/056 , H01M2300/0082 , H01M2300/0088
摘要： 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.
摘要翻译：本发明描述了基于纯嵌段型共聚物的高导电无定形聚合物材料，其包含聚环氧乙烷和其它化学上互补的嵌段并形成无定形氢键分子内多聚复合物，以及由离子导电材料，分子量有机增塑剂和纳米级无机颗粒。嵌段型共聚物优选为具有PEO的中心嵌段和化学互补的聚丙烯酰胺（PAAm）或聚（丙烯酸）（PAAc）的两个侧嵌段的直链三嵌段共聚物。由于长边PAAm链的存在及其与PEO的中心可结晶嵌段的相互作用，TBC体结构是无定形和完全均匀的。它可以表示为两个聚合物组分的氢键链段的总数，均匀分布在PAAm基质中。提出的聚合物材料可用于DSSC太阳能电池和锂电池的固体聚合物电解质。

8. 发明申请

US20100129564A1 Method for deposition of electrochemically active thin films and layered coatings 审中-公开
标题翻译：沉积电化学活性薄膜和层状涂层的方法
公开(公告)号：US20100129564A1
公开(公告)日：2010-05-27
申请号：US12148758
申请日：2008-04-22
申请人： Elena M. Shembel , Boris Tugay , Anatolii Demchyshyn , Volodymyr Redko , Tymofiy V. Pastushkin , Stanislav Denbnovetskyy , Vitalyy Melnyk , Igoz Melnyk , Alexandr Markevich
发明人： Elena M. Shembel , Boris Tugay , Anatolii Demchyshyn , Volodymyr Redko , Tymofiy V. Pastushkin , Stanislav Denbnovetskyy , Vitalyy Melnyk , Igoz Melnyk , Alexandr Markevich
IPC分类号： C23C14/02 , C23C14/28
CPC分类号： C23C14/08 , C23C14/083 , C23C14/30
摘要： 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. High condensation rates can be achieved, and the resulting condensed coating materials can have high density, making them ideal for use as electrodes in electrochemical generation and storage devices.
摘要翻译：本发明涉及用于沉积薄膜和电化学活性层状涂层的方法，其用作包括电极和固体电解质的组分，用于包括电池，超级电容器，燃料电池，太阳能电池等的电化学发电和存储装置。根据本发明，通过具有冷阴极的气体放电电子枪来实现反应性气体介质中原料的蒸发。电子束具有对应于起始材料的蒸发温度的给定比功率。在压力控制的反应性气体介质中将蒸发的原料沉积到基底上，在受控的冷凝物形成的温度和速率下进行。该温度取决于反应气体的分压。可以实现高冷凝速率，所得到的冷凝涂层材料可以具有高密度，使其成为用作电化学发生和存储装置中的电极的理想选择。

9. 发明申请

US20100021720A1 Transparent coductive oxide and method of production thereof 审中-公开
标题翻译：透明代用氧化物及其制备方法
公开(公告)号：US20100021720A1
公开(公告)日：2010-01-28
申请号：US12460759
申请日：2009-07-24
申请人： Elena M. Shembel , Aleksandra Shimyryeva , Mykhailo Dusheyko , Tymofiy V. Pastushkin , Volodymyr Redko
发明人： Elena M. Shembel , Aleksandra Shimyryeva , Mykhailo Dusheyko , Tymofiy V. Pastushkin , Volodymyr Redko
IPC分类号： B32B5/16 , B05D3/06 , C23C14/34
CPC分类号： H01B1/08 , C23C14/0036 , C23C14/02 , C23C14/086 , C23C14/3414 , C23C14/35 , Y10T428/25
摘要： 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/□.
摘要翻译：真空蒸发的新型有效方法和随后在聚合物基础上沉积透明导电氧化物可以实现ITO膜的高技术和操作参数：透明度，导电性，对聚合物基材的高粘附性（特别是限制沉积温度不再超过60℃），耐热冲击，热循环，湿度等，并且在不使用贵金属的情况下提供相对低的成本。根据本发明获得的透明导电氧化物通常以具有6nm至25nm的纳米晶体的尺寸的纳米结构来表征。其中纳米结构均匀分布在所述表面上。当表面电阻值为12欧姆/□时，根据本发明接收的透明导电氧化物ITO的透明度值为92％。

10. 发明申请

US20150030937A1 Nonaqueous Electrolyte for Lithium Ion and Lithium Metal Batteries 审中-公开
标题翻译：用于锂离子和锂金属电池的非水电解质
公开(公告)号：US20150030937A1
公开(公告)日：2015-01-29
申请号：US14192622
申请日：2014-02-27
申请人： Elena Shembel , Irina M. Maksyuta , Volodymyr Redko , Tymofiy V. Pastushkin
发明人： Elena Shembel , Irina M. Maksyuta , Volodymyr Redko , Tymofiy V. Pastushkin
IPC分类号： H01M10/0565 , H01M10/0567 , H01M10/0525
CPC分类号： H01M10/0565 , H01M10/052 , H01M10/0525 , H01M10/0567
摘要： 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.
摘要翻译：用于高能量锂离子电池的非水电解质或具有锂金属阳极的电池，其中引入添加剂的组成以增加锂电池的特定特性，包括循环期间参数的稳定性和电池操作的安全性，当组合物添加剂包括来自酯类，低分子量硅季铵盐和大分子聚合物有机硅季铵盐的化合物。

你已经成功收藏专利！

检索式保存成功!

IPRDB

热门服务

关于我们

友情链接

联系方式