羧甲基纤维素-氯化铵对增塑碳酸丙烯酯固体生物聚合物电解质(sbp)的电性进行了实验和计算研究

Phosphorus Sulfur and Silicon and The Related Elements Pub Date : 2018-01-15 DOI:10.1080/10426507.2017.1417308

M. Isa, N. Ahmad

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引用次数: 2

摘要

摘要/ ABSTRACT通过溶液铸造技术，采用掺杂氯化铵(AC)的羧甲基纤维素(CMC)和不同量(0 - 12 wt. %)的碳酸丙烯酯(PC)固体生物聚合物电解质(sbp)来测量导热系数。在sbp体系中，在303 ~ 328 K的温度范围内，用电阻抗谱法测定了离子电导率、ϵr和Mi的频率依赖性。对于含有8wt . % PC的样品，sbp体系的最高离子电导率为1.01 × 10−2 S cm−1。该系统符合Arrhenius规则，其中R2≈1。电介质研究表明，CMC-AC-PC sbp具有非德拜特性。因此，PC是提高SBP体系离子电导率和性能的最有前途的增塑剂之一。

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Carboxymethyl cellulose – ammonium chloride on electrical of plasticized propylene carbonate solid bio-polymer electrolytes (SBPs) using experimental and computational studies

GRAPHICAL ABSTRACT ABSTRACT Thermal conductivity was measured using carboxyl methylcellulose (CMC) doped with ammonium chloride (AC) with varied amounts (0 – 12 wt. %) of propylene carbonate (PC) solid bio-polymer electrolytes (SBPs) via solution casting technique. In SBPs system, the frequency dependence of ionic conductivity, ϵr, and Mi were measured by using an electrical impedance spectroscopy method in the temperature range of 303 – 328 K. The highest ionic conductivity on the SBPs system is 1.01 × 10−2 S cm−1 for a sample containing 8 wt. % of PC. The system was found to obey the Arrhenius rule, where R2 ≈ 1. The dielectric studies show non-Debye behaviour for CMC-AC-PC SBPs. It is convenient to trust that the PC is one of the most promising plasticizers to enhance ionic conductivity and performance for SBP system.

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Phosphorus Sulfur and Silicon and The Related Elements

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