Anhydrous proton conductivity of a lamella-structured inorganic-organic zirconium-monododecyl phosphate crystalline hybrid

Je-Deok Kim; Toshiyuki Mori; Itaru Honma

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Anhydrous proton conductivity of a lamella-structured inorganic-organic zirconium-monododecyl phosphate crystalline hybrid

机译：层状结构的无机-有机锆-单十二烷基磷酸酯晶体杂化物的无水质子电导率

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A lamella-structured inorganic-organic zirconium-monododecyl phosphate crystalline hybrid was investigated as an anhydrous proton conductor. Inorganic zirconium ions were coordinated by OH groups of a phosphate moiety from organic monododecyl phosphate. The inorganic-organic zirconium-monododecyl phosphate hybrid showed a lamella structure with crystalline ZrP, and the thermal stability increased up to 230℃. A maximum proton conductivity of 2 × 10~(-3) S cm~(-1) was obtained at 150℃ under anhydrous conditions. The high proton conductivity under high temperature and anhydrous conditions could be explained by considering the interaction between Zr ions and the phosphate group, and the phosphate concentration in the lamella-structured inorganic-organic zirconium-monododecyl phosphate hybrid.

机译：研究了一种层状结构的无机-有机锆-磷酸十二烷基磷酸酯晶体杂化物作为无水质子导体。无机锆离子由有机单十二烷基磷酸酯的磷酸根部分的OH基团配位。无机-有机锆-单十二烷基磷酸酯杂化物显示出具有晶体ZrP的片状结构，并且热稳定性提高到230℃。在无水条件下于150℃获得最大质子电导率为2×10〜（-3）S cm〜（-1）。高温和无水条件下的高质子传导性可以通过考虑Zr离子与磷酸根基团之间的相互作用以及层状结构的无机-有机锆-十二烷基磷酸酯杂化物中的磷酸根浓度来解释。

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来源
《Journal of power sources》 |2007年第2期|p.694-697|共4页
作者
Je-Deok Kim; Toshiyuki Mori; Itaru Honma;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
中图分类能源与动力工程;
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Anhydrous proton conductivity of a lamella-structured inorganic-organic zirconium-monododecyl phosphate crystalline hybrid

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