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    • 2. 发明申请
    • ANTI-REFLECTIVE COATING
    • 防反射涂层
    • US20110019277A1
    • 2011-01-27
    • US12741919
    • 2008-11-10
    • Brian M. SagerJames R. Sheats
    • Brian M. SagerJames R. Sheats
    • G02B1/11B05D5/00
    • B29D11/00865G02B1/113G02B2207/107
    • Methods and devices are provided for improved anti-reflective coatings. Non-vacuum deposition of transparent conductive electrodes in a roll-to-roll manufacturing environment is disclosed. In one embodiment of the present invention, a device is provided comprising a multi-layer anti-reflective coating formed over a substantially transparent substrate; wherein the multi-layer anti-reflective coating comprises of a plurality of nanostructured layers, wherein each of the layers has a tuned porosity and at least some of the nanostructured layers have different porosities to create a different index of refraction for those layers. In some embodiments, the absorber layer for use with this anti-reflective layer is a group IB-IIIA-VIA absorber layer.
    • 提供了改进的抗反射涂层的方法和装置。 透明导电电极在卷对卷制造环境中的非真空沉积被公开。 在本发明的一个实施例中,提供一种装置,其包括在基本上透明的基底上形成的多层抗反射涂层; 其中所述多层抗反射涂层由多个纳米结构层组成,其中每个层具有调谐的孔隙度,并且所述纳米结构层中的至少一些具有不同的孔隙率以产生对于那些层的不同折射率。 在一些实施例中,与该抗反射层一起使用的吸收层是IB-IIIA-VIA族吸收层。
    • 3. 发明授权
    • Series interconnected optoelectronic device module assembly
    • 系列互连光电器件组件
    • US07732232B2
    • 2010-06-08
    • US11865691
    • 2007-10-01
    • James R. SheatsSam KaoGregory A. MillerMartin R. Roscheisen
    • James R. SheatsSam KaoGregory A. MillerMartin R. Roscheisen
    • H01L21/00
    • H01L31/0392H01L27/3204H01L31/03925H01L31/03928H01L31/046H01L31/0465H01L31/0749H01L31/18H01L51/5203Y02E10/541Y02P70/521
    • Series interconnection of optoelectronic device modules is disclosed. Each device module includes an active layer disposed between a bottom electrode and a transparent conducting layer. An insulating layer is disposed between the bottom electrode of a first device module and a backside top electrode of the first device module. One or more vias are formed through the active layer, transparent conducting layer and insulating layer of the first device module. Sidewalls of the vias are coated with an insulating material such that a channel is formed through the insulating material to the backside top electrode of the first device module. The channel is at least partially filled with an electrically conductive material to form a plug that makes electrical contact between the transparent conducting layer and the backside top electrode of the first device module. Portions of the backside top electrode and insulating layer of a second device module are cut back to expose a portion of the bottom electrode of the second device module. The first and second device modules are attached to an insulating carrier substrate. Electrical contact is made between the backside top electrode of the first device module and the exposed portion of the bottom electrode of the second device module.
    • 公开了光电器件模块的串联互连。 每个器件模块包括设置在底部电极和透明导电层之间的有源层。 绝缘层设置在第一器件模块的底部电极和第一器件模块的背面顶部电极之间。 通过第一器件模块的有源层,透明导电层和绝缘层形成一个或多个通孔。 通孔的侧壁涂覆有绝缘材料,使得通过绝缘材料形成通道到第一器件模块的背面顶部电极。 通道至少部分地填充有导电材料以形成在第一器件模块的透明导电层和背面顶部电极之间形成电接触的插塞。 背面顶部电极和第二器件模块的绝缘层的部分被切割以暴露第二器件模块的底部电极的一部分。 第一和第二器件模块附接到绝缘载体衬底。 在第一器件模块的背面顶部电极和第二器件模块的底部电极的暴露部分之间形成电接触。
    • 5. 发明授权
    • Method of manufacture of active matrix addressed polymer LED display
    • 有源矩阵寻址聚合物LED显示屏的制造方法
    • US06965361B1
    • 2005-11-15
    • US09098190
    • 1998-06-16
    • James R. SheatsMark R. HueschenRonald L. Moon
    • James R. SheatsMark R. HueschenRonald L. Moon
    • G08B5/22G09G3/32H01L27/32
    • H01L27/3251H01L27/322H01L2251/5338
    • A display having a plurality of light emitting pixels. Each pixels includes an isolation transistor, a driving circuit, and an organic light emitting diode (OLED). The driving circuit storing a value that determines the magnitude of the light emitted by that pixels, the driving circuit placing the OLED in a conducting path between the first and second power terminals. The driving circuit is programmed through the isolation transistor. In one embodiment of the present invention, the driving circuit includes a storage capacitor and a driving transistor. The OLEDs are part of an array of OLEDs. The array of OLEDs is constructed on a flexible sheet having first and second surfaces, the flexible sheet being transparent to light of a first wavelength. A transparent first electrode layer is in contact with the first surface. A light emitting layer including an organic polymer is in contact with the first electrode layer. A plurality of second electrodes, one such second electrode corresponding to each of the OLEDs, is in contact with the light emitting layer. Each second electrode has an isolated conducting area. The driving transistor are part of a transistor array having a plurality of connection points disposed on a surface, each connection point corresponding to one of the second electrodes in the array of OLEDs. The connection points are arranged such that each second electrode overlies the corresponding connection point when the array of OLEDs is properly aligned with the transistor array. The connection points are bonded to the corresponding second electrodes by a bonding layer.
    • 具有多个发光像素的显示器。 每个像素包括隔离晶体管,驱动电路和有机发光二极管(OLED)。 驱动电路存储确定由该像素发射的光的大小的值,驱动电路将OLED置于第一和第二电源端子之间的导电路径中。 驱动电路通过隔离晶体管编程。 在本发明的一个实施例中,驱动电路包括存储电容器和驱动晶体管。 OLED是OLED阵列的一部分。 OLED阵列构造在具有第一和第二表面的柔性片上,柔性片对第一波长的光是透明的。 透明的第一电极层与第一表面接触。 包含有机聚合物的发光层与第一电极层接触。 多个第二电极,对应于每个OLED的一个这样的第二电极与发光层接触。 每个第二电极具有隔离的导电区域。 驱动晶体管是具有设置在表面上的多个连接点的晶体管阵列的一部分,每个连接点对应于OLED阵列中的第二电极之一。 连接点布置成使得当OLED阵列与晶体管阵列正确对准时,每个第二电极覆盖相应的连接点。 连接点通过接合层与相应的第二电极接合。
    • 6. 发明授权
    • Roll-to-roll non-vacuum deposition of transparent conductive electrodes
    • 透明导电电极的卷对卷非真空沉积
    • US08530262B2
    • 2013-09-10
    • US12396435
    • 2009-03-02
    • Jeroen K. J. Van DurenMatthew R. RobinsonJames R. Sheats
    • Jeroen K. J. Van DurenMatthew R. RobinsonJames R. Sheats
    • H01L21/00
    • H01L31/0322H01L31/18H01L31/1884Y02E10/50
    • Methods and devices are provided for improved photovoltaic devices. Non-vacuum deposition of transparent conductive electrodes in a roll-to-roll manufacturing environment is disclosed. In one embodiment, a method is provided for forming a photovoltaic device. The method comprises processing a precursor layer in one or more steps to form a photovoltaic absorber layer; depositing a smoothing layer to fill gaps and depression in the absorber layer to reduce a roughness of the absorber layer; adding an insulating layer over the smooth layer; and forming a web-like layer of conductive material over the insulating layer. By way of nonlimiting example, the web-like layer of conductive material comprises a plurality of carbon nanotubes. In some embodiments, the absorber layer is a group IB-IIIA-VIA absorber layer.
    • 为改进的光伏器件提供了方法和装置。 透明导电电极在卷对卷制造环境中的非真空沉积被公开。 在一个实施例中,提供了一种用于形成光伏器件的方法。 该方法包括在一个或多个步骤中处理前体层以形成光伏吸收层; 沉积平滑层以填充吸收层中的间隙和凹陷以减小吸收层的粗糙度; 在平滑层上添加绝缘层; 以及在所述绝缘层上形成网状的导电材料层。 作为非限制性实例,导电材料的网状层包括多个碳纳米管。 在一些实施例中,吸收层是IB-IIIA-VIA族吸收层。