会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明申请
    • METHODS OF MAKING CONTROLLED SEGREGATED PHASE DOMAIN STRUCTURES
    • 制造控制分离相域结构的方法
    • WO2007082084A3
    • 2007-09-07
    • PCT/US2007000940
    • 2007-01-12
    • HELIOVOLT CORPSTANBERY BILLY J
    • STANBERY BILLY J
    • H01L31/18H01L31/032
    • H01L31/0322H01L31/18Y02E10/541
    • A method includes providing a first precursor on a first substrate; providing a second precursor on a second substrate; contacting the first precursor and the second precursor; reacting the first precursor and the second precursor to form a chemical reaction product; and moving the first substrate and the second substrate relative to one another to separate the chemical reaction product from at least one member selected from the group consisting of the first substrate and the second substrate, characterized in that, to control formation of a segregated phase domain structure within the chemical reaction product, a constituent of at least one member selected from the group consisting of the first precursor and the second precursor is provided in a quantity that substantially regularly periodically varies from a mean quantity with regard to basal spatial location.
    • 一种方法包括在第一衬底上提供第一前体; 在第二基板上提供第二前体; 使第一前体和第二前体接触; 使第一前体和第二前体反应形成化学反应产物; 并且相对于彼此移动第一基底和第二基底以将化学反应产物与选自第一基底和第二底物的至少一种成分分开,其特征在于,为了控制分离相结构域的形成 化学反应产物中的结构,选自第一前体和第二前体中的至少一种成分的组分以相对于基础空间位置的平均数量基本上规则地周期性地变化的量提供。
    • 3. 发明申请
    • ASSEMBLIES OF ANISOTROPIC NANOPARTICLES
    • 各向异性纳米颗粒的组装
    • WO2009020495A1
    • 2009-02-12
    • PCT/US2008/007612
    • 2008-06-18
    • HELIOVOLT CORPORATIONSTANBERY, Billy, J.
    • STANBERY, Billy, J.
    • C30B29/60H01L33/00B41J2/175C08K7/00
    • C30B29/60B82Y30/00C30B29/46C30B29/605C30B33/00Y10S977/786Y10S977/81
    • Methods and compositions of matter are described for assemblies of anisotropic nanoparticles. A method, includes forming a substantially close packed dense layer by assembling a plurality of anisotropic nanoparticles, each of the plurality of anisotropic nanoparticles having a) a first dimension that is substantially different than both a second dimension and a third dimension and b) a non-random nanoparticle crystallographic orientation that is substantially aligned with the first direction, wherein assembling includes mechanically interacting the plurality of anisotropic nanoparticles by imposing a delocalized force that defines a direction that is substantially perpendicular to a basal plane of the substantially closed packed dense layer; and imposing a fluctuating force to which the anisotropic nanoparticles respond, wherein fluctuations in a magnitude of the imposed force are sufficient to overcome a short range weak attractive force between members of the plurality of anisotropic nanoparticles with respect to anisotropic nanoparticles that are not substantially overlapping. The plurality of anisotropic nanoparticles are substantially aligned with respect to each other to define the substantially close packed dense layer and the substantially closed packed dense layer has a non-random shared crystallographic orientation that is substantially aligned with the basal plane of the substantially close packed dense layer. A composition of matter, includes a plurality of anisotropic nanoparticles that are in physical contact with one another, each of the plurality of anisotropic nanoparticles having a) a first dimension that is substantially different than both a second dimension and a third dimension and b) a non-random nanoparticle crystallographic orientation that is substantially aligned with the first direction. The plurality of anisotropic nanoparticles are substantially aligned with respect to each other to define a substantially close packed dense layer having a non-random shared crystallographic orientation that is substantially aligned with a basal plane of the substantially close packed dense layer.
    • 描述了各向异性纳米颗粒组件的物质的方法和组成。 一种方法包括通过组装多个各向异性纳米颗粒形成基本紧密堆积的致密层,所述多个各向异性纳米颗粒中的每一个具有a)与第二尺寸和第三尺寸基本上不同的第一尺寸,以及b) 其中组装包括通过施加限定基本上垂直于基本封闭的填充致密层的基础平面的方向的离域力来机械地相互作用多个各向异性纳米颗粒; 并且施加各向异性纳米颗粒响应的波动力,其中所施加的力的大小的波动足以克服多个各向异性纳米颗粒的成员之间相对于基本不重叠的各向异性纳米颗粒的短程弱的吸引力。 多个各向异性纳米颗粒相对于彼此基本上对准以限定基本上紧密堆积的致密层,并且基本封闭的填充致密层具有非随机共享晶体取向,其基本上与基本紧密堆积的密集层 层。 物质组合物包括彼此物理接触的多个各向异性纳米颗粒,所述多个各向异性纳米颗粒中的每一个具有a)与第二尺寸和第三尺寸基本上不同的第一尺寸,以及b) 基本上与第一方向对准的非随机纳米颗粒晶体取向。 多个各向异性纳米颗粒相对于彼此基本上对准以限定具有基本上与基本紧密堆积的致密层的基面对准的非随机共享晶体取向的基本紧密堆积的致密层。
    • 4. 发明申请
    • METHODS OF MAKING CONTROLLED SEGREGATED PHASE DOMAIN STRUCTURES
    • 制作控制隔离相域结构的方法
    • WO2007082084A2
    • 2007-07-19
    • PCT/US2007/000940
    • 2007-01-12
    • HELIOVOLT CORPORATIONSTANBERY, Billy, J.
    • STANBERY, Billy, J.
    • H01L31/18H01L31/032
    • H01L31/0322H01L31/18Y02E10/541
    • A method includes providing a first precursor on a first substrate; providing a second precursor on a second substrate; contacting the first precursor and the second precursor; reacting the first precursor and the second precursor to form a chemical reaction product; and moving the first substrate and the second substrate relative to one another to separate the chemical reaction product from at least one member selected from the group consisting of the first substrate and the second substrate, characterized in that, to control formation of a segregated phase domain structure within the chemical reaction product, a constituent of at least one member selected from the group consisting of the first precursor and the second precursor is provided in a quantity that substantially regularly periodically varies from a mean quantity with regard to basal spatial location.
    • 一种方法包括:在第一衬底上提供第一前体; 在第二衬底上提供第二前体; 接触第一前体和第二前体; 使第一前体和第二前体反应以形成化学反应产物; 以及将所述第一基板和所述第二基板相对于彼此移动以将所述化学反应产物与选自由所述第一基板和所述第二基板组成的组中的至少一个成员分离,其特征在于,为了控制分离相域的形成 在化学反应产物内的结构中,选自由第一前体和第二前体组成的组中的至少一种成分的成分的数量基本上有规律地周期性地从关于基本空间位置的平均量变化。 p>
    • 10. 发明申请
    • PHOTOVOLTAIC DEVICES AND COMPOSITIONS FOR USE THEREIN
    • 光伏器件及其使用的组合物
    • WO2003026024A2
    • 2003-03-27
    • PCT/US2002/029607
    • 2002-09-19
    • HELIOVOLT CORPORATIONSTANBERY, Billy, J.
    • STANBERY, Billy, J.
    • H01L31/032
    • H01L31/0322H01L31/0749H01L31/18Y02E10/541
    • Systems and methods are described for compositions, apparatus and/or electronic devices. A composition, includes a composition layer 160, 660, 730 defining a first surface and a second surface, the composition layer 160, 660, 730 including a collection layer 170, 685 that is located closer to the first surface than to the second surface. An apparatus, includes a semiconductor absorber layer 730 defining a first surface and a second surface; and an electrode layer 645, 720 coupled to the first surface of the semiconductor absorber layer 160, 660, 730, wherein the semiconductor absorber layer 160, 660, 730 includes a collection layer 170, 685 that is located closer to the first surface than to the second surface. A electronic device includes a semiconductor structure 160, 660, 730 for absorbing, the semiconductor structure for absorbing 160, 660, 730 defining a first surface and a second surface; and an electrode structure 645, 720 for conducting coupled to the second surface of the semiconductor structure 730, where the semiconductor structure 160, 660, 730 includes a collection layer 170, 695 that is located closer to the first surface than to the second surface.
    • 对组合物,装置和/或电子装置描述了系统和方法。 组合物包括限定第一表面和第二表面的组合物层160,660,730,组合物层160,660,730包括位于比第二表面更靠近第一表面的收集​​层170,685。 一种装置,包括限定第一表面和第二表面的半导体吸收层730; 以及耦合到半导体吸收层160,660,730的第一表面的电极层645,720,其中半导体吸收层160,660,730包括位于更接近第一表面的收集​​层170,685,其比第 第二个表面。 电子设备包括用于吸收限定第一表面和第二表面的用于吸收160,660,730的半导体结构的半导体结构160,660,730; 以及用于传导耦合到半导体结构730的第二表面的电极结构645,720,其中半导体结构160,660,730包括位于比第二表面更靠近第一表面的收集​​层170,695。