Electrical Conduction Mechanism in Solid Polymer Electrolytes: New Concepts to Arrhenius Equation

Shujahadeen B.Aziz; Zul Hazrin Z.Abidin

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Electrical Conduction Mechanism in Solid Polymer Electrolytes: New Concepts to Arrhenius Equation

机译：固体聚合物电解质中的导电机理：Arrhenius方程的新概念

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Solid polymer electrolytes based on chitosan NaCF3SO3have been prepared by the solution cast technique. X-ray diffraction shows that the crystalline phase of the pure chitosan membrane has been partially disrupted. The fourier transform infrared (FTIR) results reveal the complexation between the chitosan polymer and the sodium triflate (NaTf) salt. The dielectric constant and DC conductivity follow the same trend with NaTf salt concentration. The increase in dielectric constant at different temperatures indicates an increase in DC conductivity. The ion conduction mechanism follows the Arrhenius behavior. The dependence of DC conductivity on both temperature and dielectric constant (σdc(T,ε′)=σ0e−Ea/KBT) is also demonstrated.

机译：已经通过溶液流延技术制备了基于壳聚糖NaCF 3 SO 3的固体聚合物电解质。 X射线衍射表明，纯壳聚糖膜的结晶相已被部分破坏。傅立叶变换红外（FTIR）结果表明壳聚糖聚合物与三氟甲磺酸钠（NaTf）盐之间存在络合。介电常数和直流电导率与NaTf盐浓度遵循相同的趋势。在不同温度下介电常数的增加表明直流电导率的增加。离子传导机制遵循Arrhenius行为。还证明了直流电导率对温度和介电常数（σdc（T，ε'）=σ0e-Ea/ KBT）的依赖性。

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《Journal of Soft Matter》 |2013年第2期|共8页
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Shujahadeen B.Aziz; Zul Hazrin Z.Abidin;
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Electrical Conduction Mechanism in Solid Polymer Electrolytes: New Concepts to Arrhenius Equation

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