Counterelectrode for smart window and smart window
    4.
    发明授权
    Counterelectrode for smart window and smart window 失效
    Countererelectrode智能窗口和智能窗口

    公开(公告)号:US5940202A

    公开(公告)日:1999-08-17

    申请号:US911229

    申请日:1997-08-15

    IPC分类号: G02F1/155 G02F1/153

    CPC分类号: G02F1/155 G02F2001/1555

    摘要: A counterelectrode for a smart window contains a transparent substrate and a linear electrically conductive material formed on a surface of the transparent substrate. The electrically conductive material has a surface area of not less than 10 m.sup.2 /g and electrical conductivity of not less than 10.sup.-6 .OMEGA..sup.-1 .multidot.cm.sup.-1 at 25.degree. C. A smart window contains an electrochromic electrode having a layer of an electrochromic material formed on its surface, and a layer of an electrolyte arranged between the counterelectrode and the electrochromic electrode and in contact with the layer of the electrochromic material.

    摘要翻译: 用于智能窗的反电极包含形成在透明基板的表面上的透明基板和线性导电材料。 导电材料在25℃下的表面积不小于10m 2 / g,电导率不小于10-6MEGA-1×cm-1。智能窗包括具有电致变色材料层的电致变色电极 形成在其表面上,以及布置在反电极和电致变色电极之间并与电致变色材料层接触的电解质层。

    METHOD FOR MANUFACTURING NANO-ARRAY ELECTRODE AND PHOTOELECTRIC CONVERSION DEVICE USING SAME
    5.
    发明申请
    METHOD FOR MANUFACTURING NANO-ARRAY ELECTRODE AND PHOTOELECTRIC CONVERSION DEVICE USING SAME 审中-公开
    使用其制造纳米阵列电极和光电转换装置的方法

    公开(公告)号:US20060234505A1

    公开(公告)日:2006-10-19

    申请号:US11424242

    申请日:2006-06-15

    IPC分类号: H01L21/44

    摘要: The present invention provides a method of manufacturing a nano-array electrode with a controlled nano-structure by filling an electrode material into the fine pores of an anodic-oxide porous alumina film obtained by anodically oxidizing aluminum in electrolyte, or by filling a material into the fine pores of an anodic-oxide porous alumina film obtained by anodically oxidizing aluminum in electrolyte and then filling an electrode material into the spaces defined by the nano-array formed by removing the anodic-oxide porous alumina film, or by filling repeatedly an electrode material in the fine pores of the anodic-oxide porous alumina film to fill a plurality of electrode materials. A high-performance, high-efficiency photoelectric converting device comprising a nano-array electrode manufactured by the method is also disclosed.

    摘要翻译: 本发明提供一种制造具有受控纳米结构的纳米阵列电极的方法,通过将电极材料填充到通过在电解质中阳极氧化铝而获得的阳极氧化多孔氧化铝膜的细孔中,或者通过将材料填充到 通过在电解质中阳极氧化铝,然后将电极材料填充到通过除去阳极氧化多孔氧化铝膜形成的纳米阵列限定的空间中,或者通过重复填充电极而获得的阳极氧化多孔氧化铝膜的细孔 在阳极氧化多孔氧化铝膜的细孔中的材料填充多个电极材料。 还公开了一种包括通过该方法制造的纳米阵列电极的高性能,高效率的光电转换装置。

    Counterelectrode for smart window and smart window

    公开(公告)号:US5724176A

    公开(公告)日:1998-03-03

    申请号:US536957

    申请日:1995-09-29

    IPC分类号: G02F1/155 G02F1/153

    CPC分类号: G02F1/155 G02F2001/1555

    摘要: A counterelectrode for a smart window contains a transparent substrate and a linear electrically conductive material formed on a surface of the transparent substrate. The electrically conductive material has a surface area of not less than 10 m.sup.2 /g and electrical conductivity of not less than 10.sup.-6 .OMEGA..sup.-1 .multidot.cm.sup.-1 at 25.degree. C. A smart window contains an electrochromic electrode having a layer of an electrochromic material formed on its surface, and a layer of an electrolyte arranged between the counterelectrode and the electrochromic electrode and in contact with the layer of the electrochromic material.

    Method for manufacturing nano-array electrode and photoelectric conversion device using same
    7.
    发明授权
    Method for manufacturing nano-array electrode and photoelectric conversion device using same 有权
    制造纳米阵列电极的方法及使用其的光电转换装置

    公开(公告)号:US07977131B2

    公开(公告)日:2011-07-12

    申请号:US12643298

    申请日:2009-12-21

    IPC分类号: H01L21/66

    摘要: The present invention provides a method of manufacturing a nano-array electrode with a controlled nano-structure by filling a compound having an electron-accepting structure or an electron donating structure into the fine pores of an anodic-oxide porous alumina film obtained by anodically oxidizing aluminum in electrolyte. The spaces defined between the nano-arrays formed of the compound by removing the alumina film are filled with a compound having an electron-donating structure if the nano-arrays have an electron-accepting structure and a compound having an electron-accepting structure if the nano-arrays have an electron-donating structure. A high-performance, high-efficiency photoelectric converting device comprising a nano-array electrode manufactured by the method is also disclosed.

    摘要翻译: 本发明提供一种通过将具有电子接受结构或给电子结构的化合物填充到通过阳极氧化获得的阳极氧化多孔氧化铝膜的细孔中来制造具有受控纳米结构的纳米阵列电极的方法 电解铝中的铝。 如果纳米阵列具有电子接受结构,则通过除去氧化铝膜由化合物形成的纳米阵列之间的空间填充有具有给电子结构的化合物,如果 纳米阵列具有给电子结构。 还公开了一种包括通过该方法制造的纳米阵列电极的高性能,高效率的光电转换装置。

    METHOD FOR MANUFACTURING NANO-ARRAY ELECTRODE AND PHOTOELECTRIC CONVERSION DEVICE USING SAME
    8.
    发明申请
    METHOD FOR MANUFACTURING NANO-ARRAY ELECTRODE AND PHOTOELECTRIC CONVERSION DEVICE USING SAME 有权
    使用其制造纳米阵列电极和光电转换装置的方法

    公开(公告)号:US20100132772A1

    公开(公告)日:2010-06-03

    申请号:US12643298

    申请日:2009-12-21

    摘要: The present invention provides a method of manufacturing a nano-array electrode with a controlled nano-structure by filling a compound having an electron-accepting structure or an electron donating structure into the fine pores of an anodic-oxide porous alumina film obtained by anodically oxidizing aluminum in electrolyte. The spaces defined between the nano-arrays formed of the compound by removing the alumina film are filled with a compound having an electron-donating structure if the nano-arrays have an electron-accepting structure and a compound having an electron-accepting structure if the nano-arrays have an electron-donating structure. A high-performance, high-efficiency photoelectric converting device comprising a nano-array electrode manufactured by the method is also disclosed.

    摘要翻译: 本发明提供一种通过将具有电子接受结构或给电子结构的化合物填充到通过阳极氧化获得的阳极氧化多孔氧化铝膜的细孔中来制造具有受控纳米结构的纳米阵列电极的方法 电解铝中的铝。 如果纳米阵列具有电子接受结构,则通过除去氧化铝膜由化合物形成的纳米阵列之间的空间填充有具有给电子结构的化合物,如果 纳米阵列具有给电子结构。 还公开了一种包括通过该方法制造的纳米阵列电极的高性能,高效率的光电转换装置。