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Cell Performance of Ultra-Thin Polymer Cathode Systems: Part 1. Anion Intercalating Polymer Cathode.

机译：超薄聚合物阴极系统的电池性能：第1部分。阴离子嵌入聚合物阴极。

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Theoretical energy and power density values for thin film Li/liquid electrolyte/polymer cell systems were calculated by designing a specific cell model for a both prismatic cell with only the basic cell element (no hardware) and a bipolar-design cell with some practical hardware. The cell performance is compared for three different cathode polymer materials, viz., polyaniline, polypyrrole, and polyvinylferrocene. The energy and power densities are estimated as a function of cathode thickness, active cell area, and initial concentration of electrolyte for very thin cathode films (cathode thickness). For the practical cell, the authors used a bipolar design, for which the energy and the power were calculated also as a function of the number of bipolar units (X). Keywords: Conductive polymer, Battery, Lithium. (SDW)

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Naoi, K.; Owens, B. B.; Smyrl, W. H.;
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年度 1989
页码 1-20
总页数 20
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Cathodes(Electrolytic cell); Electric batteries; Polymeric films; Anilines; Bipolar systems; Conductivity; Density; Energy; Lithium; Materials; Models; Polymers; Power; Prismatic bodies; Pyrroles; Thickness; Thin films; Thinness; Value;

机译：阴极（电解电池）;电池;聚合物薄膜;苯胺;双极系统;电导率;密度;能量;锂;材料;模型;聚合物;电源;棱柱体;吡咯;厚度;薄膜;薄度;值;

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2. Performance hysteresis phenomena of anion exchange membrane fuel cells using an Fe-N-C cathode catalyst and an in-house-developed polymer electrolyte [J] . Otsuji Kanji, Yokota Naoki, Tryk Donald A., Journal of power sources . 2021,第Mara1期

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3. Improving the water management in anion-exchange membrane fuel cells via ultra-thin, directly deposited solid polymer electrolyte [J] . Veh Philipp, Britton Benjamin, Holdcroft Steven, RSC Advances . 2020,第15期

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机译：通过边缘闭合共轭促进碱性聚合物燃料电池阴极电催化剂的铁 - 酞菁作为阴极电催化剂的性能

Cell Performance of Ultra-Thin Polymer Cathode Systems: Part 1. Anion Intercalating Polymer Cathode.

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