公开(公告)号：US20030207129A1

公开(公告)日：2003-11-06

申请号：US10422149

申请日：2003-04-24

Applicant: NanoGram Corporation

Inventor： Nobuyuki Kambe ,  Yigal Dov Blum ,  Benjamin Chaloner-Gill ,  Shivkumar Chiruvolua ,  Sujeet Kumar ,  David Brent MacQueen

IPC: B32B009/04

CPC classification number: G02B1/005 ,  B32B27/08 ,  C08G18/3897 ,  C08G83/001 ,  C08K9/08 ,  G02B6/10 ,  H01L35/24 ,  Y10T428/16 ,  Y10T428/25 ,  Y10T428/2913 ,  Y10T428/2962 ,  Y10T428/2991 ,  Y10T428/31663 ,  Y10T428/31678 ,  Y10T428/31681 ,  Y10T428/31692 ,  Y10T428/31931

Abstract: Inorganic particle/polymer composites are described that involve chemical bonding between the elements of the composite. In some embodiments, the composite composition includes a polymer having side groups chemically bonded to inorganic particles. Furthermore, the composite composition can include chemically bonded inorganic particles and ordered copolymers. Various electrical, optical and electro-optical devices can be formed from the composites.

公开(公告)号：US20030198590A1

公开(公告)日：2003-10-23

申请号：US10436772

申请日：2003-05-13

Applicant: NanoGram Corporation

Inventor： Sujeet Kumar ,  Hariklia Dris Reitz ,  Xiangxin Bi

IPC: C01G045/12

CPC classification number: H01M4/525 ,  B82Y30/00 ,  C01G45/02 ,  C01G45/1221 ,  C01G45/1242 ,  C01G45/1292 ,  C01P2002/02 ,  C01P2002/72 ,  C01P2002/77 ,  C01P2004/04 ,  C01P2004/51 ,  C01P2004/52 ,  C01P2004/62 ,  C01P2004/64 ,  C01P2004/80 ,  C01P2006/40 ,  H01M4/131 ,  H01M4/485 ,  H01M4/50

Abstract: A powder of lithiated manganese oxide has an average particle diameter preferably less than about 250 nm. The particles have a high degree of uniformity and preferably a very narrow particle size distribution. The lithiated manganese oxide can be produce by the reaction of an aerosol where the aerosol comprises both a first metal (lithium) precursor and a second metal (manganese) precursor. Preferably, the reaction involves laser pyrolysis where the reaction is driven by heat absorbed from an intense laser beam.

Abstract translation: 锂化锰氧化物的粉末的平均粒径优选小于约250nm。 颗粒具有高度均匀性，优选非常窄的粒度分布。 锂化锰氧化物可以通过气溶胶的反应产生，其中气溶胶包含第一金属（锂）前体和第二金属（锰）前体。 优选地，反应涉及激光热解，其中反应是由强激光束吸收的热量驱动的。

公开(公告)号：US20030127316A1

公开(公告)日：2003-07-10

申请号：US10346271

申请日：2003-01-17

Applicant: NanoGram Corporation

Inventor： James T. Gardner ,  Sujeet Kumar ,  Ronald M. Cornell ,  Ronald J. Mosso ,  Xiangxin Bi

IPC: B01D053/00 ,  C01B033/00

CPC classification number: B01J4/00 ,  B01J10/002 ,  B01J19/088 ,  B01J19/10 ,  B01J19/12 ,  B01J19/121 ,  B01J19/26 ,  B01J2219/0869 ,  B01J2219/0884 ,  Y10T428/2982

Abstract: An aerosol delivery apparatus is used to deliver an aerosol into a reaction chamber for chemical reaction to produce reaction products such as nanoparticles. A variety of improved aerosol delivery approaches provide for the production of more uniform reaction products. In preferred embodiments, a reaction chamber is used that has a cross section perpendicular to the flow of reactant having a dimension along a major axis greater than a dimension along a minor axis. The aerosol preferably is elongated along the major axis of the reaction chamber.

Abstract translation: 气溶胶输送装置用于将气溶胶输送到用于化学反应的反应室中以产生诸如纳米颗粒的反应产物。 各种改进的气溶胶递送方法提供了更均匀的反应产物的生产。 在优选的实施方案中，使用具有垂直于反应物流的横截面的反应​​室，其具有沿着短轴的尺寸大于沿着短轴的尺寸。 气溶胶优选沿着反应室的长轴细长。

公开(公告)号：US20030077513A1

公开(公告)日：2003-04-24

申请号：US10303622

申请日：2002-11-25

Applicant: NanoGram Corporation

Inventor： Dania I. Ghantous ,  Benjamin Chaloner-Gill ,  Shivkumar Chiruvolu ,  Devendra R. Banfol ,  William E. McGovern ,  Ronald M. Cornell ,  Khanh Hoang ,  Allison A. Pinoli

IPC: H01M004/54 ,  H01M004/58 ,  H01M004/40

CPC classification number: C01G31/00 ,  C01P2002/72 ,  C01P2002/88 ,  C01P2006/12 ,  H01M4/34 ,  H01M4/485 ,  H01M4/54 ,  H01M4/622 ,  H01M4/625 ,  H01M10/052 ,  H01M2004/021

Abstract: Improved high rate batteries based on silver vanadium oxide yield improved pulsed performance. In particular, batteries comprise an electrolyte having lithium ions and a cathode comprising silver vanadium oxide. Improved batteries have a pulsed specific energy of at least about 575 mWh/g when pulsed in groups of four-10 second pulses at a current density of 25 mA/cm2 spaced by 15 seconds between pulses and with 30 minutes between pulse groups down to a discharge voltage of 1.5 volts. In addition, improved batteries can achieve high maximum specific powers, high current densities and no voltage delay in pulsed operation. The batteries are particularly suitable for use in implantable medical devices, such as, defibrillators, pacemakers or combinations thereof. Improved processing approaches are described.

公开(公告)号：WO2013109399A1

公开(公告)日：2013-07-25

申请号：PCT/US2012/071951

申请日：2012-12-28

Applicant: NANOGRAM CORPORATION

Inventor： LI, Weidong ,  PENGRA-LEUNG, Gina, Elizabeth ,  SRINIVASAN, Uma ,  CHIRUVOLU, Shivkumar ,  SOEDA, Masaya ,  LIU, Guojun

IPC: C09D11/00 ,  C09D11/10 ,  H05K1/02

CPC classification number: H01L21/02381 ,  B82Y30/00 ,  H01L21/02488 ,  H01L21/02532 ,  H01L21/02601 ,  H01L21/02628

Abstract: Improved silicon/germanium nanoparticle inks are described that have silicon/ germanium nanoparticles well distributed within a stable dispersion. In particular the inks are formulated with a centrifugation step to remove contaminants as well as less well dispersed portions of the dispersion. A sonication step can be used after the centrifugation, which is observed to result in a synergistic improvement to the quality of some of the inks. The silicon/germanium ink properties can be engineered for particular deposition applications, such as spin coating or screen printing. Appropriate processing methods are described to provide flexibility for ink designs without surface modifying the silicon/germanium nanoparticles. The silicon/germanium nanoparticles are well suited for forming semiconductor components, such as components for thin film transistors or solar cell contacts.

Abstract translation: 描述了改进的硅/锗纳米颗粒油墨，其具有良好分布在稳定分散体内的硅/锗纳米颗粒。 特别地，油墨通过离心步骤配制以除去分散体中的污染物以及较不良好分散的部分。 在离心之后可以使用超声处理步骤，这被观察到导致对一些油墨的质量的协同改进。 可以为特定的沉积应用（例如旋涂或丝网印刷）设计硅/锗油墨性质。 描述适当的处理方法以提供油墨设计的灵活性，而不对硅/锗纳米颗粒进行表面改性。 硅/锗纳米颗粒非常适合于形成诸如用于薄膜晶体管或太阳能电池触点的部件的半导体部件。

公开(公告)号：WO2009042075A2

公开(公告)日：2009-04-02

申请号：PCT/US2008/010906

申请日：2008-09-19

Applicant: NANOGRAM CORPORATION ,  FREY, Bernard, M. ,  BUERKI, Peter, S. ,  LYNCH, Robert, B. ,  WANG, Janet, L. ,  TRAN, Gabriel ,  HORNE, Craig, R. ,  HOLUNGA, Dean, M. ,  ALTMAN, Igor

Inventor： FREY, Bernard, M. ,  BUERKI, Peter, S. ,  LYNCH, Robert, B. ,  WANG, Janet, L. ,  TRAN, Gabriel ,  HORNE, Craig, R. ,  HOLUNGA, Dean, M. ,  ALTMAN, Igor

IPC: B01J19/08

CPC classification number: B82Y30/00 ,  B01J19/121 ,  B01J2219/0869 ,  B01J2219/0884 ,  B22F2999/00 ,  B82Y40/00 ,  C22B4/08 ,  B22F9/30 ,  B22F3/003

Abstract: Light-driven flow reactors are configured with an aerosol delivery apparatus that is designed to improve the reactive process with respect to forming uniform product compositions at higher rates. In particular, the reactant delivery system can deliver an aerosol having an average droplet size of no more than about 50 microns, and in some embodiments 20 microns, and with less than 1 droplet in 10,000 having a diameter greater than 5 times the average droplet size. In some embodiments, the edge of the aerosol generator can be placed within about 6 centimeters of the edge of the light beam passing through the reaction chamber. The average aerosol velocity can be no more than about 5 meters per second. In some embodiments, the aerosol generator can comprise a non-circular opening and a gas permeable structure that is used to generate a mist that is delivered from the apparatus as an aerosol.

Abstract translation: 轻驱动流动反应器配置有气雾剂输送设备，该设备被设计为改善关于以更高速率形成均匀产品组合物的反应过程。 特别地，反应物输送系统可输送平均液滴尺寸不超过约50微米，并且在一些实施例中为20微米，并且具有小于1微滴的10,000微米的气溶胶，其具有大于平均液滴尺寸5倍的直径 。 在一些实施例中，气溶胶发生器的边缘可以放置在穿过反应室的光束边缘的约6厘米内。 平均气溶胶速度不能超过每秒约5米。 在一些实施例中，气溶胶发生器可以包括非圆形开口和透气结构，其用于产生从装置作为气溶胶输送的雾。

公开(公告)号：WO2008156631A2

公开(公告)日：2008-12-24

申请号：PCT/US2008/007330

申请日：2008-06-12

Applicant: NANOGRAM CORPORATION ,  HIESLMAIR, Henry ,  MOSSO, Ronald, J. ,  SOLAYAPPAN, Narayan ,  CHIRUVOLU, Shivkumar ,  MORRIS, Julio, E.

Inventor： HIESLMAIR, Henry ,  MOSSO, Ronald, J. ,  SOLAYAPPAN, Narayan ,  CHIRUVOLU, Shivkumar ,  MORRIS, Julio, E.

IPC: C23C16/455 ,  C23C16/00 ,  H01L21/20

CPC classification number: C30B25/02 ,  C23C16/01 ,  C23C16/24 ,  C23C16/545 ,  C30B13/00 ,  C30B25/18 ,  C30B29/06 ,  H01L21/02488 ,  H01L21/02513 ,  H01L21/02532 ,  H01L31/1804 ,  H01L31/1872 ,  H01L31/202 ,  Y02E10/547 ,  Y02P70/521 ,  Y10T428/26 ,  Y10T428/263 ,  Y10T428/264 ,  Y10T428/265

Abstract: Sub-atmospheric pressure chemical vapor deposition is described with a directed reactant flow and a substrate that moves relative to the flow. Thus, using this CVD configuration a relatively high deposition rate can be achieved while obtaining desired levels of coating uniformity. Deposition approaches are described to place one or more inorganic layers onto a release layer, such as a porous, particulate release layer. In some embodiments, the release layer is formed from a dispersion of submicron particles that are coated onto a substrate. The processes described can be effective for the formation of silicon films that can be separated with the use of a release layer into a silicon foil. The silicon foils can be used for the formation of a range of semiconductor based devices, such as display circuits or solar cells.

Abstract translation: 使用定向反应物流和相对于流动移动的基底来描述亚大气压化学气相沉积。 因此，使用这种CVD构造可以获得相当高的沉积速率，同时获得所需的涂层均匀度。 描述沉积方法以将一个或多个无机层置于剥离层上，例如多孔的颗粒脱模层。 在一些实施方案中，释放层由涂覆在基材上的亚微米颗粒的分散体形成。 所描述的方法可以有效地形成可以使用剥离层分离成硅箔的硅膜。 硅箔可用于形成诸如显示电路或太阳能电池的一系列半导体器件。

公开(公告)号：WO2008103293A1

公开(公告)日：2008-08-28

申请号：PCT/US2008/002048

申请日：2008-02-15

Applicant: NANOGRAM CORPORATION ,  HIESLMAIR, Henry

Inventor： HIESLMAIR, Henry

IPC: H01L31/042

CPC classification number: H01L31/0682 ,  H01L21/228 ,  H01L21/268 ,  H01L31/02 ,  H01L31/022441 ,  H01L31/046 ,  H01L31/0504 ,  H01L31/0516 ,  H01L31/061 ,  H01L31/1804 ,  H02S40/32 ,  H02S50/10 ,  Y02E10/547 ,  Y02P70/521

Abstract: Photovoltaic modules can comprise solar cells having doped domains of opposite polarities along the rear side of the cells. The doped domains can be located within openings through a dielectric passivation layer. In some embodiments, the solar cells are formed form thin silicon foils. Doped domains can be formed by printing inks along the rear surface of the semiconducting sheets. The dopant inks can comprise nanoparticles having the desired dopant. Photovoltaic modules can be formed with a plurality of solar cells having different sized structures to improve module performance. The sized can be determined dynamically based on estimated properties of the semiconductor so that the current outputs of the cells in the module are more similar to each other. The modules can produce higher power relative to modules with similar equal sized cells that do not produce matched currents. Appropriate dynamic processing methods are described that include processing steps that provide adjustments of the processing according to the dynamic adjustments in cell designs.

Abstract translation: 光伏模块可以包括沿着电池背面具有相反极性的掺杂区域的太阳能电池。 掺杂区域可以位于通过介电钝化层的开口内。 在一些实施例中，太阳能电池由薄硅箔形成。 可以通过沿着半导体片的后表面印刷油墨来形成掺杂区域。 掺杂剂油墨可以包含具有所需掺杂剂的纳米颗粒。 光伏模块可以形成有具有不同尺寸结构的多个太阳能电池，以提高模块性能。 可以基于半导体的估计性质动态地确定尺寸，使得模块中的单元的电流输出彼此更相似。 这些模块可以产生相对于不具有匹配电流的类似相同尺寸电池的模块的更高功率。 描述了适当的动态处理方法，其包括根据小区设计中的动态调整来提供处理调整的处理步骤。

公开(公告)号：WO2006127746A2

公开(公告)日：2006-11-30

申请号：PCT/US2006/019983

申请日：2006-05-23

Applicant: NANOGRAM CORPORATION ,  CHIRUVOLU, Shivkumar ,  DU, Hui ,  MCGOVERN, William, E. ,  HORNE, Craig, R. ,  MOSSO, Ronald, J. ,  KAMBE, Nobuyuki

Inventor： CHIRUVOLU, Shivkumar ,  DU, Hui ,  MCGOVERN, William, E. ,  HORNE, Craig, R. ,  MOSSO, Ronald, J. ,  KAMBE, Nobuyuki

IPC: B29B9/00 ,  B32B5/16

CPC classification number: B01J19/121 ,  B01J4/002 ,  B01J19/085 ,  B01J19/088 ,  B01J19/123 ,  B01J19/125 ,  B01J19/126 ,  B01J19/127 ,  B01J19/128 ,  B01J19/26 ,  B01J2219/0849 ,  B01J2219/0869 ,  B01J2219/0871 ,  B01J2219/0877 ,  B01J2219/0892 ,  B82Y30/00 ,  C01P2004/04 ,  C01P2004/61 ,  C01P2004/62 ,  C01P2004/64 ,  C01P2006/12 ,  C08J3/12 ,  C08J3/128 ,  C08J2383/02 ,  C09C1/3684 ,  C09C3/10 ,  C09C3/12

Abstract: Collections of composite particles comprise inorganic particles and another composition, such as a polymer and/or a coating composition. In some embodiments, the composite particles have small average particle sizes, such as no more than about 10 microns or no more than about 2.5 microns. The composite particles can have selected particle architectures. The inorganic particles can have compositions selected for particular properties. The composite particles can be effective for printing applications, for the formation of optical coatings, and other desirable applications.

Abstract translation: 复合颗粒的收集包括无机颗粒和另一种组合物，例如聚合物和/或涂料组合物。 在一些实施方案中，复合颗粒具有小的平均粒度，例如不超过约10微米或不大于约2.5微米。 复合颗粒可以具有选定的颗粒结构。 无机颗粒可以具有特定性质的组合物。 复合颗粒可用于印刷应用，用于形成光学涂层和其它期望的应用。

公开(公告)号：WO2004109821A2

公开(公告)日：2004-12-16

申请号：PCT/US2004/017793

申请日：2004-06-04

Applicant: NANOGRAM CORPORATION ,  HORNE, Craig, R. ,  MCGOVERN, William, E. ,  LYNCH, Robert, B. ,  MOSSO, Ronald, J.

Inventor： HORNE, Craig, R. ,  MCGOVERN, William, E. ,  LYNCH, Robert, B. ,  MOSSO, Ronald, J.

IPC: H01M

CPC classification number: C23C16/405 ,  C23C16/403 ,  C23C16/483 ,  C23C18/06 ,  C23C18/1204 ,  C23C18/1216 ,  C23C18/1241 ,  C23C18/14 ,  C23C24/00 ,  C23C26/00 ,  H01M4/8621 ,  H01M4/8885 ,  H01M4/9066 ,  H01M4/92 ,  H01M8/0271 ,  H01M8/0273 ,  H01M8/1213 ,  H01M8/1246 ,  H01M8/2485 ,  H01M2008/1293 ,  H01M2300/0082 ,  H01M2300/0094 ,  Y02E60/525 ,  Y02P70/56

Abstract: Light reactive deposition can be adapted effectively for the deposition of one or more electroche ical cell components. In particular, electrodes, electrolytes, electrical interconnects c be deposited form a reactive flow. In some embodiments, the reactive flow comprises a reactant stream that intersects a light beam to drive a reaction within a light reactive zone to produce product that is deposited on a substrate. The approach is extremely versatile for the production of a range of compositions that are useful in electrochemical cells and fuel cell, in particular. The properties of the materials, including the density and porosity can be adjusted based on the deposition properties and any subsequent processing including, for example, heat treatments.

Abstract translation: 光反应沉积可以有效地适应于沉积一个或多个电晶元件。 特别地，电极，电解质，电互连c从反应流中沉积。 在一些实施例中，反应流包括与光束相交的反应物流，以驱动光反应区内的反应以产生沉积在基底上的产物。 该方法对于生产可用于电化学电池和燃料电池的一系列组合物是非常通用的。 材料的性质，包括密度和孔隙度可以根据沉积性能和任何后续的加工进行调整，包括例如热处理。