Mechanochemically synthesized CsH2PO4–H3PW12O40 composites as proton-conducting electrolytes for fuel cell systems in a dry atmosphere

机译：机械化学合成的CsH2PO4–H3PW12O40复合材料作为在干燥气氛中用于燃料电池系统的质子传导电解质

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Cesium dihydrogen phosphate (CsH2PO4, CDP) and dodecaphosphotungstic acid (H3PW12O40·nH2O, WPA·nH2O) were mechanochemically milled to synthesize CDP–WPA composites. The ionic conductivities of these composites were measured by an ac impedance method under anhydrous conditions. Despite the synthesis temperatures being much lower than the dehydration and phase-transition temperatures of CDP under anhydrous conditions, the ionic conductivities of the studied composites increased significantly. The highest ionic conductivity of 6.58×10⁻⁴ Scm⁻¹ was achieved for the 95CDP·5WPA composite electrolyte at 170 °C under anhydrous conditions. The ionic conduction was probably induced in the percolated interfacial phase between CDP and WPA. The phenomenon of high ionic conduction differs for the CDP–WPA composite and pure CDP or pure WPA under anhydrous conditions. The newly developed hydrogen interaction between CDP and WPA supports anhydrous proton conduction in the composites.

机译：用机械化学方法研磨了磷酸二氢铯（CsH2PO4，CDP）和十二磷钨酸（H3PW12O40·nH2O，WPA·nH2O）以合成CDP-WPA复合材料。在无水条件下通过交流阻抗法测量了这些复合材料的离子电导率。尽管在无水条件下合成温度远低于CDP的脱水和相变温度，但所研究复合材料的离子电导率却显着提高。 95CDP·5WPA复合电解质在170°C无水条件下的最高离子电导率达到6.58×10 ^{-4 Scm ^{-1 。在CDP和WPA之间的渗透界面相中可能诱导了离子传导。在无水条件下，CDP-WPA复合材料和纯CDP或纯WPA的高离子传导现象不同。 CDP和WPA之间新开发的氢相互作用支持复合材料中的无水质子传导。}}

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期刊名称 Science and Technology of Advanced Materials
作者
Song-yul Oh; Evan K Insani; Van H Nguyen; Go Kawamura; Hiroyuki Muto; Mototsugu Sakai; Atsunori Matsuda;
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作者单位

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年(卷),期 2011(12),3
年度 2011
页码 034402
总页数 6
原文格式 PDF
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关键词
dry fuel cell inorganic solid acid cesium dihydrogen phosphate phosphotungstic acid advanced composite;

机译：干燃料电池;无机固体酸;磷酸二氢铯;磷钨酸;高级复合材料;

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专利

1. Mechanochemically synthesized CsH2PO4–H3PW12O40 composites as proton-conducting electrolytes for fuel cell systems in a dry atmosphere [J] . Science and technology of advanced materials . 2011,第3期

机译：机械化学合成的CsH2PO4–H3PW12O40复合材料，作为在干燥气氛中用于燃料电池系统的质子传导电解质
2. Mechanochemically synthesized CsH2PO4–H3PW12O40 composites as proton-conducting electrolytes for fuel cell systems in a dry atmosphere [J] . Song-yul Oh, Evan K Insani, Van H Nguyen, Science and technology of advanced materials . 2011,第F1期

机译：机械化学合成的CsH2PO4–H3PW12O40复合材料，作为在干燥气氛中用于燃料电池系统的质子传导电解质
3. Solid-state mechanochemical synthesis of CsHSO_4 and 1,2,4-triazole inorganic-organic composite electrolytes for dry fuel cells [J] . Song-Yul Oh, Toshihiro Yoshida, Go Kawamura, Electrochimica Acta . 2011,第5期

机译：用于干燃料电池的CSHSO_4和1,2,4-三唑无机 - 有机复合电解质的固态机械化学合成
4. Proton-Conducting Ce_(0.9)Mn_(0.1)P_2O_7 Composite Electrolytes for Low Temperature Ceramic Electrolyte Fuel Cells [C] . Bhupendra Singh, Ji-Hye Kim, Sang-Yun Jeon, . 2014

机译：用于低温陶瓷电解质燃料电池的质子传导性Ce_（0.9）Mn_（0.1）P_2O_7复合电解质
5. Protonic Conductors for Intermediate Temperature Fuel Cell Electrolytes: Superprotonic CsH2PO4 Stabilization and in-Doped SnP2O7 Structure Study [D] . Martinez Salinas, Heber Jair. 2017

机译：中间温度燃料电池电解质的质词导体：超级化CSH2PO4稳定和掺杂的SNP2O7结构研究
6. Polymer and Composite Membranes for Proton-Conducting High-Temperature Fuel Cells: A Critical Review [O] . Eliana Quartarone, Simone Angioni, Piercarlo Mustarelli 2017

机译：用于质子传导高温燃料电池的聚合物和复合膜：一项重要的评论。
7. Structural, thermal and electrical properties of composites electrolytes (1−x) CsH2PO4/x ZrO2 (0 ≤ x ≤ 0.4) for fuel cell with advanced electrode [O] . Deshraj Singh, Pawan Kumar, Jitendra Singh, 2021

机译：复合材料的结构，热和电性能电解质（1-x）CSH2PO4 / X ZrO2（0≤x≤0.4），具有先进电极的燃料电池

Mechanochemically synthesized CsH2PO4–H3PW12O40 composites as proton-conducting electrolytes for fuel cell systems in a dry atmosphere

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