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    • 2. 发明申请
    • SOLAR CELL
    • 太阳能电池
    • US20120138126A1
    • 2012-06-07
    • US12598226
    • 2009-03-18
    • Shigeo Yata
    • Shigeo Yata
    • H01L31/042H01L31/0687H01L31/0232
    • H01L31/03921H01L31/022466H01L31/056Y02E10/52
    • A solar cell 10 comprising a light-receiving-surface electrode layer, a backside electrode layer 4 and a stacked body 3 provided between the light-receiving-surface electrode layer 2 and the backside electrode layer 4. The stacked body 3 includes a first photoelectric converter 31 and a reflective layer 32 reflecting a part of light, which has transmitted through the first photoelectric converter 31, toward the first photoelectric converter 31. The reflective layer 32 includes a low-refractive-index layer 32b containing a refractive index-modifier and a contact layer 32 interposed between the low-refractive-index layer 32b and the first photoelectric converter 31. A refractive index of a material constituting the refractive index-modifier is lower than a refractive index of a material constituting the contact layer 32a. A refractive index of the low-refractive-index layer 32b is lower than a refractive index of the contact layer 32a.
    • 包括设置在受光面电极层2和背面电极层4之间的受光面电极层,背面电极层4和层叠体3的太阳能电池10.叠层体3包括第一光电 转换器31和将透过第一光电转换器31的一部分光反射到第一光电转换器31的反射层32.反射层32包括含有折射率调节剂的低折射率层32b和 介于低折射率层32b和第一光电转换器31之间的接触层32.构成折射率调节剂的材料的折射率低于构成接触层32a的材料的折射率。 低折射率层32b的折射率低于接触层32a的折射率。
    • 4. 发明申请
    • SOLAR CELL MODULE AND SOLAR CELL MODULE MANUFACTURING METHOD
    • 太阳能电池模块和太阳能电池模块制造方法
    • US20100065115A1
    • 2010-03-18
    • US12516581
    • 2007-11-22
    • Shigeo Yata
    • Shigeo Yata
    • H01L31/0224H01L31/00
    • H01L31/022425H01L31/046H01L31/0463Y02E10/50
    • Provided are a solar cell module and a solar cell module manufacturing method, the solar cell module being capable of maintaining a higher power generation capacity even if water infiltrates. In a solar cell module 10, in a first groove section 30, a second transparent conductive film 14a is in contact with a first transparent conductive film 12 while covering a side wall of a photoelectric conversion layer 13. A metal film 14b is in contact with the first transparent conductive film 12 while covering a side wall of the second transparent conductive film 14a. In the first groove section 30, the metal film 14b is in contact with the photoelectric conversion layer 13 while covering a side wall of the second transparent conductive film 14a formed on the photoelectric conversion layer 13.
    • 提供一种太阳能电池模块和太阳能电池模块制造方法,即使水渗入,太阳能电池模块能够保持较高的发电能力。 在太阳能电池模块10中,在第一槽部30中,第二透明导电膜14a与第一透明导电膜12接触,同时覆盖光电转换层13的侧壁。金属膜14b与 第一透明导电膜12同时覆盖第二透明导电膜14a的侧壁。 在第一槽部30中,金属膜14b与光电转换层13接触,同时覆盖形成在光电转换层13上的第二透明导电膜14a的侧壁。
    • 8. 发明授权
    • Photoelectric conversion device
    • 光电转换装置
    • US08759667B2
    • 2014-06-24
    • US13616091
    • 2012-09-14
    • Shigeo Yata
    • Shigeo Yata
    • H01L31/00
    • H01L31/076H01L31/1824H01L31/202Y02E10/545Y02E10/548Y02P70/521
    • Disclosed is a photoelectric conversion device with improved photoelectric conversion efficiency. In the disclosed photoelectric conversion device, an amorphous silicon photoelectric conversion unit with an amorphous i-type layer and a microcrystalline silicon photoelectric conversion unit with a microcrystalline i-type layer are laminated, and an intermediate layer, which is disposed between the amorphous silicon photoelectric conversion unit and the microcrystalline silicon photoelectric conversion unit, has a lower refractive index than the layers in contact with the front or back surfaces thereof, wherein the higher the crystalline fraction of the microcrystalline i-type layer in the panel surface, the thicker the film of the intermediate layer.
    • 公开了一种具有改善的光电转换效率的光电转换装置。 在所公开的光电转换装置中,层叠具有非晶i型层的非晶硅光电转换单元和具有微晶i型层的微晶硅光电转换单元,并且将中间层设置在非晶硅光电 转换单元和微晶硅光电转换单元具有比与其前表面或后表面接触的层更低的折射率,其中在面板表面中微晶i型层的结晶分数越高,膜越厚 的中间层。