公开(公告)号：WO2014133754A1

公开(公告)日：2014-09-04

申请号：PCT/US2014/015915

申请日：2014-02-12

Applicant: IMRA AMERICA, INC.

Inventor： TAN, Bing ,  HU, Zhendong ,  HE, Guanghui ,  CHE, Yong

IPC: H01M6/42

CPC classification number: H01M4/485 ,  B82Y30/00 ,  C01G23/053 ,  C01G23/0536 ,  C01P2002/30 ,  C01P2002/32 ,  C01P2002/50 ,  C01P2002/52 ,  C01P2002/54 ,  C01P2002/72 ,  C01P2004/61 ,  C01P2004/62 ,  C01P2004/64 ,  C01P2004/80 ,  C01P2006/40 ,  H01G11/06 ,  H01G11/32 ,  H01G11/46 ,  H01G11/86 ,  H01M4/366 ,  H01M4/625 ,  H01M10/0525 ,  Y02E60/13

Abstract: The described embodiments provide an energy storage device that includes a positive electrode including a material that stores and releases ion, a negative electrode including Nb-doped TiO 2 (B), and a non-aqueous electrolyte containing lithium ions. The described embodiments provide a method including the steps of combining at least one titanium compound and at least one niobium compound in ethylene glycol to form a precursor solution, adding water into the precursor solution to induce hydrolysis and condensation reactions, thereby forming a reaction solution, heating the reaction solution to form crystallized particles, collecting the particles, drying the collected particles, and applying a thermal treatment at a temperature > 350°C to the dried particles to obtain Nb-doped TiO 2 (B) particles.

Abstract translation: 所描述的实施例提供了一种能量存储装置，其包括包括存储和释放离子的材料的正极，包含掺杂Nb的TiO 2（B）的负极和包含锂离子的非水电解质。 所描述的实施方案提供了一种方法，包括以下步骤：将至少一种钛化合物和至少一种铌化合物在乙二醇中混合以形成前体溶液，向前体溶液中加入水以引发水解和缩合反应，由此形成反应溶液， 加热反应溶液以形成结晶颗粒，收集颗粒，干燥收集的颗粒，并在温度> 350℃下对干燥颗粒进行热处理以获得掺杂Nb的TiO 2（B）颗粒。

公开(公告)号：WO2014099517A1

公开(公告)日：2014-06-26

申请号：PCT/US2013/074258

申请日：2013-12-11

Applicant: IMRA AMERICA, INC.

Inventor： TAN, Bing ,  HU, Zhendong ,  HE, Guanghui ,  CHE, Yong

IPC: H01M4/13 ,  H01M6/04 ,  H01G9/00

CPC classification number: H01G11/46 ,  H01G11/06 ,  H01G11/50 ,  H01G11/86 ,  H01M4/131 ,  H01M4/1391 ,  H01M4/364 ,  H01M4/485 ,  H01M4/62 ,  H01M4/625 ,  H01M10/0525 ,  H01M2004/021 ,  Y02E60/13

Abstract: The described embodiments provide an energy storage device that includes a positive electrode including an active material that can store and release ions, a negative electrode including an active material that is a lithiated nano-architectured active material including tin and at least one stress-buffer component, and a non-aqueous electrolyte including lithium. The negative electrode active material is nano-architectured before lithiation.

Abstract translation: 所描述的实施例提供了一种能量存储装置，其包括包括能够存储和释放离子的活性材料的正电极，包含活性材料的负极，所述活性材料是包含锡的锂化纳米结构的活性材料和至少一种应力缓冲组分 和包含锂的非水电解质。 在锂化之前，负极活性物质是纳米结构的。

公开(公告)号：WO2012061023A1

公开(公告)日：2012-05-10

申请号：PCT/US2011/057000

申请日：2011-10-20

Applicant: IMRA AMERICA, INC. ,  GUO, Wei ,  JIN, Yu ,  LIU, Bing ,  CHE, Yong ,  HAGEDORN, Kevin, V.

Inventor： GUO, Wei ,  JIN, Yu ,  LIU, Bing ,  CHE, Yong ,  HAGEDORN, Kevin, V.

IPC: H01L21/02 ,  H01L21/368 ,  H01L31/18

CPC classification number: H01L21/02628 ,  H01L21/02568 ,  H01L21/02601 ,  H01L21/02614 ,  H01L31/0322 ,  H01L31/0749 ,  Y02E10/541

Abstract: The present invention provides a non-vacuum method of depositing a photovoltaic absorber layer based on electrophoretic deposition of a mixture of nanoparticles with a controlled atomic ratio between the elements. The nanoparticles are first dispersed in a liquid medium to form a colloidal suspension and then electrophoretically deposited onto a substrate to form a thin film photovoltaic absorber layer. The absorber layer may be subjected to optional post-deposition treatments for photovoltaic absorption.

Abstract translation: 本发明提供了一种非真空方法，其基于在元件之间具有受控原子比的纳米颗粒的混合物的电泳沉积来沉积光伏吸收层。 首先将纳米颗粒分散在液体介质中以形成胶体悬浮液，然后电泳沉积到基底上以形成薄膜光伏吸收层。 可以对吸收层进行用于光伏吸收的任选的后沉积处理。

公开(公告)号：WO2011100153A1

公开(公告)日：2011-08-18

申请号：PCT/US2011/023529

申请日：2011-02-03

Applicant: IMRA AMERICA, INC. ,  MURAKAMI, Makoto ,  CHE, Yong ,  LIU, Bing ,  ICHIKAWA, Yuki

Inventor： MURAKAMI, Makoto ,  CHE, Yong ,  LIU, Bing ,  ICHIKAWA, Yuki

IPC: G01J3/44 ,  B32B3/10

CPC classification number: G01N21/658 ,  B82Y30/00 ,  B82Y40/00 ,  C23C14/083 ,  C23C14/3435

Abstract: An device for Raman spectroscopy such as surface enhanced Raman spectroscopy (SERS) is disclosed herein. Various embodiments may be utilized to prepare a SERS substrate using several deposition techniques such as pulsed laser deposition. Some embodiments optimize coverage, volume, or elements of SERS active metals. The method is a single step inexpensive method for preparing a SERS active substrate. In some embodiments a coating layer underneath the SERS active metals is utilized for additional enhancements.

Abstract translation: 本文公开了一种用于拉曼光谱的装置，例如表面增强拉曼光谱（SERS）。 可以使用多种沉积技术例如脉冲激光沉积来制备SERS衬底的各种实施例。 一些实施例优化SERS活性金属的覆盖，体积或元素。 该方法是用于制备SERS活性基底的单步廉价方法。 在一些实施方案中，SERS活性金属下面的涂层用于额外的增强。

公开(公告)号：WO2015138019A1

公开(公告)日：2015-09-17

申请号：PCT/US2014/069535

申请日：2014-12-10

Applicant: IMRA AMERICA,INC.

Inventor： TAN, Bing ,  HU, Zhendong ,  HE, Guanghui ,  CHE, Yong

IPC: H01M4/48

CPC classification number: H01M4/485 ,  H01M10/052 ,  H01M2004/021 ,  H01M2004/027

Abstract: The described embodiments provide an energy storage device that includes a positive electrode including an active material that can store and release ions, a negative electrode including a V, Nb co-doped TiO 2 (B), and a non-aqueous electrolyte including lithium ions. At least one embodiment provides a negative electrode active material including V, Nb co-doped TiO 2 (B). At least one embodiment provides a wet-chemistry process to prepare V, Nb co-doped TiO 2 (B).

Abstract translation: 所描述的实施例提供了一种能量存储装置，其包括包括可以存储和释放离子的活性材料的正极，包括V，Nb共掺杂TiO 2（B）的负极和包含锂离子的非水电解质。 至少一个实施方案提供了包括V，Nb共掺二氧化钛（B）的负极活性材料。 至少一个实施方案提供了制备V，Nb共掺杂TiO 2（B）的湿化学方法。

公开(公告)号：WO2012074622A1

公开(公告)日：2012-06-07

申请号：PCT/US2011/057562

申请日：2011-10-25

Applicant: IMRA AMERICA, INC ,  TAN, Bing ,  HU, Zhengdong ,  CHE, Yong

Inventor： TAN, Bing ,  HU, Zhengdong ,  CHE, Yong

IPC: H01M4/13

CPC classification number: H01M12/02 ,  H01G11/02 ,  H01G11/06 ,  H01G11/46 ,  H01G11/54 ,  H01M4/8605 ,  H01M4/90 ,  H01M4/9016 ,  H01M4/9041 ,  H01M12/08 ,  H01M14/00 ,  H01M16/00 ,  H01M16/003 ,  H01M16/006 ,  H01M2220/20 ,  H01M2220/30 ,  Y02E60/128 ,  Y02E60/13 ,  Y02E60/50 ,  Y02T10/7022

Abstract: A rechargeable energy storage device is disclosed. In at least one embodiment the energy storage device includes an air electrode providing an electrochemical process comprising reduction and evolution of oxygen and a capacitive electrode enables an electrode process consisting of non-faradic reactions based on ion absorption/desorption and/or faradic reactions. This rechargeable energy storage device is a hybrid system of fuel cells and ultracapacitors, pseudocapacitors, and/or secondary batteries.

Abstract translation: 公开了一种可再充电能量存储装置。 在至少一个实施例中，能量存储装置包括空气电极，其提供包括氧的还原和释放的电化学过程，并且电容电极能够实现由基于离子吸收/解吸和/或法拉第反应的非法拉第反应组成的电极过程。 该可再充电能量存储装置是燃料电池和超级电容器，假电容器和/或二次电池的混合系统。

公开(公告)号：WO2011100152A1

公开(公告)日：2011-08-18

申请号：PCT/US2011/023527

申请日：2011-02-03

Applicant: IMRA AMERICA, INC. ,  LIU, Bing ,  CHE, Yong

Inventor： LIU, Bing ,  CHE, Yong

IPC: B32B9/04 ,  B82B3/00

CPC classification number: H01L31/035281 ,  B22F1/0022 ,  B22F9/04 ,  B22F2998/00 ,  B22F2999/00 ,  B23K26/361 ,  B82B1/001 ,  B82Y40/00 ,  H01L31/0296 ,  H01L31/0322 ,  H01L31/03923 ,  H01L31/03925 ,  H01L31/1828 ,  Y02E10/541 ,  Y02E10/543 ,  Y02P70/521 ,  B22F1/0018 ,  B22F2202/11

Abstract: A method of producing nanoparticles of solar light absorbing compound materials based on pulsed laser ablation is disclosed. The method uses irradiation of a target material of solar light absorbing compound material with a pulsed laser beam having a pulse duration of from 10 femtoseconds to 500 picoseconds to ablate the target thereby producing nanoparticles of the target The nanoparticles are collected and a solution of the nanoparticles is applied to a substrate to produce a thin film solar cell. The method preserves the composition and structural crystalline phase of the starting target. The method is a much lower cost fabrication method for thin film solar cells.

Abstract translation: 公开了一种基于脉冲激光烧蚀制备太阳光吸收复合材料的纳米颗粒的方法。 该方法使用具有10飞秒至500皮秒的脉冲持续时间的脉冲激光束照射太阳光吸收复合材料的目标材料以烧蚀靶，从而产生靶的纳米颗粒。收集纳米颗粒，并将纳米颗粒的溶液 施加到基板上以制造薄膜太阳能电池。 该方法保留起始靶的组成和结构结晶相。 该方法是薄膜太阳能电池成本低廉的制造方法。

公开(公告)号：WO2005125288A3

公开(公告)日：2005-12-29

申请号：PCT/US2005/020403

申请日：2005-06-09

Applicant: IMRA AMERICA, INC. ,  CHE, Yong ,  HU, Zhendong

Inventor： CHE, Yong ,  HU, Zhendong

IPC: C23C14/28 ,  C23C14/30 ,  C23C14/00

Abstract: A method of fabricating a multi-layered thin film electrochemical device is provided. The method comprises: providing a first target material in a chamber; providing a substrate in the chamber; emitting a first intermittent laser beam directed at the first target material to generate a first plasma, wherein each pulse of the first intermittent laser beam has a pulse duration of about 20 fs to about 500 ps; depositing the first plasma on the substrate to form a first thin film; providing a second target material in the chamber; emitting a second intermittent laser beam directed at the second target material to generate a second plasma, wherein each pulse of the second intermittent laser beam has a pulse duration of about 20 fs to about 500 ps; and depositing the second plasma on or above the first thin film to form a second thin film.

公开(公告)号：WO2013085825A1

公开(公告)日：2013-06-13

申请号：PCT/US2012/067512

申请日：2012-12-03

Applicant: IMRA AMERICA INC.

Inventor： HAGEDORN, Kevin, V. ,  LIU, Bing ,  CHE, Yong

IPC: G06F19/00

CPC classification number: B01J37/349 ,  B01J21/185 ,  B01J23/62 ,  B01J23/626 ,  B01J23/628 ,  B01J23/6447 ,  B01J23/6525 ,  B01J23/892 ,  B01J35/0013 ,  B01J35/002 ,  B01J35/1014 ,  B01J37/344 ,  B82Y30/00 ,  B82Y40/00 ,  H01M4/921 ,  Y10S977/773 ,  Y10S977/81 ,  Y10S977/889

Abstract: At least one embodiment includes a method for fabricating a catalyst comprising a colloidal suspension of nanoparticles, the nanoparticles comprising intermetallics of two or more metals exhibiting long range superlattice crystal ordering. The method comprising the steps of: producing a bulk target of the intermetallics of two or more metals exhibiting long range crystal ordering and submerging the target in a solvent. A pulsed laser is used to ablate bulk target material and to produce nanoparticle of the intermetallics of two or more metals exhibiting long range crystal ordering. At least one embodiment includes a catalyst made with the method. The catalyst can exhibit some desirable properties. For example, the catalyst may remain suspended in solution, essentially without surface modification by ionic compounds. Furthermore, the concentration of elements other than those which comprise the solvent or the intermetallic compound may be less than about 1 ppm.

Abstract translation: 至少一个实施方案包括用于制造包含纳米颗粒的胶态悬浮液的催化剂的方法，所述纳米颗粒包含两种或更多种呈现长范围超晶格晶体排列的金属的金属间化合物。 该方法包括以下步骤：制备两种或多种金属间化合物的体积目标物，其显示长程晶体排序并将靶浸入溶剂中。 使用脉冲激光来消融体目标材料并产生呈现长程晶体排列的两种或多种金属的金属间化合物的纳米颗粒。 至少一个实施方案包括用该方法制备的催化剂。 催化剂可以表现出一些期望的性质。 例如，催化剂可以保持悬浮在溶液中，基本上没有通过离子化合物的表面改性。 此外，除了包含溶剂或金属间化合物的元素之外的元素的浓度可以小于约1ppm。

公开(公告)号：WO2012134853A1

公开(公告)日：2012-10-04

申请号：PCT/US2012/029623

申请日：2012-03-19

Applicant: IMRA AMERICA, INC. ,  LIU, Bing ,  QIAN, Wei ,  MURAKAMI, Makoto ,  CHE, Yong

Inventor： LIU, Bing ,  QIAN, Wei ,  MURAKAMI, Makoto ,  CHE, Yong

IPC: G01J3/44

CPC classification number: B05D3/06 ,  B05D7/22 ,  B82Y30/00 ,  B82Y40/00 ,  G01J3/44 ,  G01N21/658 ,  G01N2021/651

Abstract: An apparatus for performing surface-enhanced Raman scattering (SERS) is disclosed wherein an inner surface of a container is coated with SERS active materials such as nanoparticles of noble metals. Such a container can provide a partially enclosed, optical diffuse cavity whose inner surfaces serve for dual purposes of enhancing Raman scattering of the contained analyte and optical integration, therefore improving the efficiency of optical excitation and signal collection. The container may be configured to isolate the SERS active material from the external environment. The container, which may be a cylindrical tube, may be referred to as a SERS tube. Methods of coating the inner wall of a container with pulsed laser ablation and with nanoparticle colloids, respectively, are disclosed.

Abstract translation: 公开了一种用于进行表面增强拉曼散射（SERS）的设备，其中容器的内表面涂覆有SERS活性材料，例如贵金属的纳米颗粒。 这种容器可以提供部分封闭的光学漫射腔，其内表面用于增强所包含的分析物的拉曼散射和光学积分的双重目的，从而提高光学激发和信号采集的效率。 容器可以被配置为将SERS活性材料与外部环境隔离。 可以将圆筒形管的容器称为SERS管。 公开了分别用脉冲激光烧蚀和纳米颗粒胶体涂覆容器内壁的方法。