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首页> 外文期刊>Journal of power sources >Fabrication and characterization of solid-state cells using CuI_(100-x)-(silver ortho/pyrophosphate)_x (0 ≤ x ≤ 60) mixed systems as solid electrolytes
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Fabrication and characterization of solid-state cells using CuI_(100-x)-(silver ortho/pyrophosphate)_x (0 ≤ x ≤ 60) mixed systems as solid electrolytes

机译:使用CuI_(100-x)-(正磷酸银/焦磷酸银)_x(0≤x≤60)混合系统作为固体电解质的固态电池的制造和表征

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摘要

Solid-state cells are fabricated using the best conducting compositions found in two different mixed systems, namely, CuI-Ag_3PO_4 and CuI-Ag_4P_2O_7. The discharge and polarization studies of these cells are examined. The open-circuit voltage and short-circuit current density exhibited by the two prototype systems are 639 and 635 mV and 1.2 and 2 mA cm~(-2), respectively. The discharge and polarization studies indicate that the best conducting compositions, for the two systems, i.e., (CuI)_(0.5)-(Ag_3PO_4)_(0.5) and (CuI)_(0.55)-(Ag_4P_2O_7)_(0.45), respectively, would act as promising solid electrolytes based on Ag~+-ion migration. This is because of their excellent physical properties.
机译:固态电池是使用在两个不同的混合系统CuI-Ag_3PO_4和CuI-Ag_4P_2O_7中发现的最佳导电成分制成的。检查了这些电池的放电和极化研究。两个原型系统显示的开路电压和短路电流密度分别为639和635 mV,以及1.2和2 mA cm〜(-2)。放电和极化研究表明,对于(CuI)_(0.5)-(Ag_3PO_4)_(0.5)和(CuI)_(0.55)-(Ag_4P_2O_7)_(0.45)这两个系统而言,最佳导电成分分别基于Ag〜+离子迁移,可作为有前途的固体电解质。这是由于其优异的物理性能。

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