Investigation of the Ionic Conduction Mechanism in Carboxymethyl Cellulose/Chitosan Biopolymer Blend Electrolyte Impregnated with Ammonium Nitrate

Rani M. S. A.; Mohamed N. S.; Isa M. I. N.

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Investigation of the Ionic Conduction Mechanism in Carboxymethyl Cellulose/Chitosan Biopolymer Blend Electrolyte Impregnated with Ammonium Nitrate

机译：硝酸铵浸渍羧甲基纤维素/壳聚糖生物聚合物共混电解质中离子传导机理的研究

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In the present work, an attempt has been made to prepare a new natural biopolymer blend electrolyte of carboxymethyl cellulose/chitosan impregnated with NH4NO3 by the solution casting technique. The conductivity for the system was measured by impedance spectroscopy. The incorporation of 40wt.% NH4NO3 optimized the ambient temperature conductivity of the electrolyte up to 1.03x10(-5) S cm(-1). All electrolytes were found to follow the Arrhenius relationship. Dielectric studies confirmed that the electrolytes obey non-Debye behavior. The temperature dependence of the power law exponent s for the highest conducting film can be represented by the correlated barrier hopping model.

机译：在目前的工作中，已经尝试通过溶液流延技术制备新的由NH 4 NO 3浸渍的羧甲基纤维素/壳聚糖的天然生物聚合物共混电解质。该系统的电导率通过阻抗光谱法测量。掺入40wt。％NH4NO3可优化电解质的环境温度电导率，最高可达1.03x10（-5）S cm（-1）。发现所有电解质都遵循Arrhenius关系。介电研究证实电解质遵循非德拜行为。对于最高导电膜，幂律指数s的温度依赖性可以通过相关的势垒跳跃模型来表示。

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《International Journal of Polymer Analysis and Characterization》 |2015年第8期|共13页
作者
Rani M. S. A.; Mohamed N. S.; Isa M. I. N.;
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正文语种 eng
中图分类高分子化合物工业（高聚物工业）;
关键词
Carboxymethyl cellulose; Chitosan; Conductivity; Correlated barrier hopping; Arrhenius;

机译：羧甲基纤维素;壳聚糖;电导率;相关的跳跃跃迁;阿累尼乌斯;

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1. Investigation of the Ionic Conduction Mechanism in Carboxymethyl Cellulose/Chitosan Biopolymer Blend Electrolyte Impregnated with Ammonium Nitrate [J] . Rani M. S. A., Mohamed N. S., Isa M. I. N. International Journal of Polymer Analysis and Characterization . 2015,第1a8期

机译：硝酸铵浸渍羧甲基纤维素/壳聚糖生物聚合物共混电解质中离子传导机理的研究
2. Conduction Mechanism of Solid Biopolymer Electrolytes System Based on Carboxymethyl cellulose – Ammonium chloride [J] . American-Eurasian Journal of Sustainable Agriculture . 2015,第2期

机译：羧甲基纤维素-氯化铵固体生物聚合物电解质体系的导电机理
3. Study of the ionic conduction mechanism based on carboxymethyl cellulose biopolymer electrolytes [J] . Samsudin A. S., Isa M. I. N. Journal of the Korean Physical Society . 2014,第9期

机译：羧甲基纤维素生物聚合物电解质的离子传导机理研究
4. Ionic Conduction Mechanism of Solid Biodegradable Polymer Electrolytes Based Carboxymethyl Cellulose Doped Ammonium Thiocyanate [C] . M. I. N. Isa, N. A. M. Noor International Conference on Materials and Engineering Technology . 2015

机译：基于固体生物降解的聚合物电解质的离子传导机理基于羧甲基纤维素掺杂硫氰酸铵
5. Interfacial Ionic Conduction Mechanisms in Alkali-ion Conductive Electrolytes [D] . 齋藤, 唯理亜 1992

机译：碱离子导电电解质中的界面离子导电机理
6. Natural Inspired Carboxymethyl Cellulose (CMC) Doped with Ammonium Carbonate (AC) as Biopolymer Electrolyte [O] . Mohd Ibnu Haikal Ahmad Sohaimy, Mohd Ikmar Nizam Mohamad Isa 2020

机译：自然启发的羧甲基纤维素（CMC）掺杂有碳酸铵（AC）作为生物聚合物电解质
7. Immittance Response on Carboxymethyl Cellulose Blend with Polyvinyl Alcohol- Doped Ammonium Bromide-Based Biopolymer Electrolyte [O] . Norfatihah Mazuki, Yuki Nagao, Ahmad Salihin Samsudin 2019

机译：羧甲基纤维素混合物与聚乙烯醇掺杂溴化铵基生物聚合物电解质的常规反应

Investigation of the Ionic Conduction Mechanism in Carboxymethyl Cellulose/Chitosan Biopolymer Blend Electrolyte Impregnated with Ammonium Nitrate

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