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Cell Performance of Ultra-Thin Polymer Cathode Cell Systems. Part 2. CationIntercalating Composite Polymer Cathode

机译：超薄聚合物阴极电池系统的电池性能。第2部分。阳离子嵌入复合聚合物阴极

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Theoretical specific energy and power densities for thin film Li/LE or SPE/CPcell systems were calculated by modeling a bipolar-design polymer cathode rechargeable cell with hardware where LE, SPE and CP represent the liquid electrolyte (2M LiClO4(PC)), solid polymer electrolyte (PEO(8)LiX) and the conductive polymer(polypyrrole). The cell performance is obtained for a cation-intercalating PPy-PVS composite film which is composed of polypyrrole(PPy) into which has been incorporated the polymer anion, polyvinylsolfonate(PVS) during deposition. The energy and power densities are estimated as a function of cathode thickness (1 to 100,000 micron), active cell area (1 to 10,000 sq cm) and the number of bipolar units(1 to 100). Compared to the anion-consuming polymer cathode system, significant enhancement of specific energy was achieved. The theoretical specific energy amounts to ca. 290 Wh/kg (bare cell) and ca. 209 Wh/kg for a bipolar Li/LE or SPE/PPy-PVS cell system (with hardware). (RH)

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作者
Naoi, K.; Smyrl, W. H.; Owens, B. B.;
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年度 1990
页码
总页数 13
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Cathodes; Polymers; Anions; Cells; Conductivity; Density; Deposition; Electrolytes; Energy; Liquids; Optimization; Power; Pyrroles; Solid electrolytes; Thickness; Thin films;

机译：阴极;聚合物;阴离子;细胞;电导率;密度;沉积;电解质;能量;液体;优化;功率;吡咯;固体电解质;厚度;薄膜;

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Cell Performance of Ultra-Thin Polymer Cathode Cell Systems. Part 2. CationIntercalating Composite Polymer Cathode

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