Electrochemical properties of MH2PO4/SiP2O7-based electrolytes (M=alkaline metal) for use in intermediate-temperature fuel cells

Muroyama H; Kudo K; Matsui T; Kikuchi R; Eguchi K

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Electrochemical properties of MH2PO4/SiP2O7-based electrolytes (M=alkaline metal) for use in intermediate-temperature fuel cells

机译：用于中温燃料电池的MH2PO4 / SiP2O7基电解质（M =碱性金属）的电化学性能

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The proton-conductive MH2PO4/SiP2O7-based composites (M = K, Rb, Cs) were synthesized, and their structure and proton conductivity were investigated at intermediate temperatures. For all MH2PO4/SiP2O7-based composites, the chemical reaction between MH2PO4 and SiP2O7 has proceeded during the heat treatment at 220 degrees C for 1 h, resulting in the formation of MH5(PO4)(2). The heat-treated composites exhibited higher conductivity than MH2PO4 due to the new conduction phase of MH5(PO4)(2), regardless of the alkaline metal species. The electrolytes of MH5(PO4)(2)/SiP2O7 composites (M=K, Rb, Cs) were also fabricated so as to compare the conductivity with almost the same charge carrier concentration. It is noted that their conductivity is independent of the alkaline metal species. (C) 2007 Elsevier B.V. All rights reserved.

机译：合成了质子传导性的MH2PO4 / SiP2O7基复合材料（M = K，Rb，Cs），并在中等温度下研究了它们的结构和质子传导性。对于所有基于MH2PO4 / SiP2O7的复合材料，在220℃下热处理1小时的过程中，MH2PO4和SiP2O7之间的化学反应已经进行，导致形成MH5（PO4）（2）。热处理后的复合材料表现出比MH2PO4更高的电导率，这归因于MH5（PO4）（2）的新的导电相，而与碱金属种类无关。还制备了MH5（PO4）（2）/ SiP2O7复合材料（M = K，Rb，Cs）的电解质，以便将电导率与几乎相同的载流子浓度进行比较。注意，它们的电导率与碱金属种类无关。（C）2007 Elsevier B.V.保留所有权利。

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《Solid state ionics》 |2007年第28期|共5页
作者
Muroyama H; Kudo K; Matsui T; Kikuchi R; Eguchi K;
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正文语种 eng
中图分类固体物理学;
关键词
intermediate-temperature fuel cells; proton-conductor; MH2PO4; composite electrolyte; PROTON CONDUCTIVITY; COMPOSITE; CRYSTALS;

机译：中温燃料电池;质子导体;MH2PO4;复合电解质;质子导电性;复合材料;晶体;

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1. Electrochemical properties of MH2PO4/SiP2O7-based electrolytes (M=alkaline metal) for use in intermediate-temperature fuel cells [J] . Muroyama H, Kudo K, Matsui T, Solid state ionics . 2007,第27a28期

机译：用于中温燃料电池的MH2PO4 / SiP2O7基电解质（M =碱性金属）的电化学性能
2. An intermediate-temperature alkaline fuel cell using an Sn_(0.92)Sb_(0.08)P2O7-based hydroxide-ion-conducting electrolyte and electrodes [J] . Takashi Hibino, Kazuyo Kobayashi Journal of Materials Chemistry, A. Materials for energy and sustainability . 2013,第4期

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5. Modeling, simulation and experimental validation of polymer electrolyte membrane fuel cells and alkaline membrane fuel cells [D] . Martins, Lauber De Souza. 2011

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7. Investigations of Intermediate-Temperature Alkaline Methanol Fuel Cell Electrocatalysis Using a Pressurized Electrochemical Cell [O] . Junhua Jiang, Ted Aulich 2012

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8. Definition of Chemical and Electrochemical Properties of a Fuel Cell Electrolyte [R] . Ahmad, J., Foley, R. T. 1980

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Electrochemical properties of MH2PO4/SiP2O7-based electrolytes (M=alkaline metal) for use in intermediate-temperature fuel cells

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