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    • 1. 发明申请
    • PHOTOELECTROCHEMICAL CELL
    • 光电化学电池
    • US20110174610A1
    • 2011-07-21
    • US13016488
    • 2011-01-28
    • Takaiki NOMURATakahiro SUZUKIKenichi TOKUHIROTomohiro KUROHANoboru TANIGUCHIKazuhito HATOHShuzo TOKUMITSU
    • Takaiki NOMURATakahiro SUZUKIKenichi TOKUHIROTomohiro KUROHANoboru TANIGUCHIKazuhito HATOHShuzo TOKUMITSU
    • C25B9/00
    • C25B1/003C01B3/042H01M14/005Y02E60/364Y02E60/368Y02P20/135
    • A photoelectrochemical cell (1) is a photoelectrochemical cell for decomposing water by irradiation with light so as to produce hydrogen. This photoelectrochemical cell (1) includes: a conductive substrate; a first electrode (optical semiconductor electrode (3)) including an optical semiconductor and disposed on a first main surface of the conductive substrate; a second electrode (counter electrode (4)) disposed in a region on the first main surface of the conductive substrate where the first electrode is not disposed; an electrolyte containing water and disposed in contact with a surface of the first electrode and a surface of the second electrode; a rib (5) formed to separate a space above the surface of the second electrode from a space above the surface of the first electrode and to extend along a flow direction of a gas produced on the surface of the second electrode, the rib being formed of a material that allows ions to pass therethrough and prevents a gas from passing therethrough; and a container (2) containing the conductive substrate, the first electrode, the second electrode, the electrolyte, and the rib.
    • 光电化学电池(1)是用于通过用光照射分解水以产生氢的光电化学电池。 该光电化学电池(1)包括:导电性基板; 包括光学半导体并设置在导电基板的第一主表面上的第一电极(光学半导体电极(3)); 设置在不设置第一电极的导电性基板的第一主面上的区域中的第二电极(对置电极(4)); 含有水并与第一电极的表面和第二电极的表面接触的电解液; 形成为将第二电极的表面上方的空间与第一电极的表面上方的空间分离并且沿着在第二电极的表面上产生的气体的流动方向延伸的肋(5),所述肋形成 允许离子通过其中并防止气体从其中通过的材料; 和包含导电性基板,第一电极,第二电极,电解质和肋的容器(2)。
    • 2. 发明申请
    • FUEL CELL
    • 燃料电池
    • US20080171250A1
    • 2008-07-17
    • US12020249
    • 2008-01-25
    • Shinsuke TAKEGUCHIKazuhito HATOHHiroki KUSAKABEToshihiro MATSUMOTO
    • Shinsuke TAKEGUCHIKazuhito HATOHHiroki KUSAKABEToshihiro MATSUMOTO
    • H01M8/10H01M2/08
    • H01M8/0271H01M8/026H01M8/0263H01M8/0276H01M8/0278H01M2008/1095
    • Even if reaction gas flows into a substantially rectangular anode-side and cathode-side gaps formed between an annular main body portion and a membrane electrode assembly in an anode side and a cathode side of a fuel cell, the reaction gas is prevented from flowing out from an outlet without passing through an electrode to cause degradation of power generation efficiency. At least one of anode-side gasket and cathode-side gasket in the fuel cell is provided with an extra sealing portion connected to an annular main body portion in such a manner that, among two pairs of gap portions opposing to each other in the anode-side gap and the cathode-side gap, the extra sealing portion intersects with one pair of gap portions having a larger pressure gradient of fuel gas and oxidant gas in a direction from an upstream side to a downstream side of a fuel gas flow channel and an oxidant gas flow channel.
    • 即使反应气体流入在燃料电池的阳极侧和阴极侧形成于环状主体部与膜电极组件之间的大致矩形的阳极侧和阴极侧的间隙,也能够防止反应气体流出 从而不通过电极而导致发电效率降低。 燃料电池中的阳极侧衬垫和阴极侧衬垫中的至少一个设置有与环形主体部分连接的额外的密封部分,使得在阳极中彼此相对的两对间隙部分中 所述多个密封部与燃料气体和氧化剂气体的压力梯度比从燃料气体流路的上游侧向下游侧更大的压力梯度的一对间隙相交, 氧化剂气体流动通道。