The Effect of Plasticization on Conductivity and Other Properties of Starch/Chitosan Blend Biopolymer Electrolyte Incorporated with Ammonium Iodide

Yusof Y. M.; Majid N. A.; Kasmani R. M.; Illias H. A.; Kadir M. F. Z.

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The Effect of Plasticization on Conductivity and Other Properties of Starch/Chitosan Blend Biopolymer Electrolyte Incorporated with Ammonium Iodide

机译：增塑对掺碘化铵的淀粉/壳聚糖共混生物聚合物电解质电导率及其他性能的影响

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This work focuses on polymer electrolytes composed of a starch-chitosan blend host, ammonium iodide (NH4I) and glycerol. Fourier transform infrared (FTIR) analysis confirms the interaction of starch-chitosan-NH4I-glycerol. The highest room temperature conductivity is (1.28 +/- 0.07) x 10(-3) S cm(-1), obtained by a sample containing 30wt% glycerol. Dielectric studies showed that the electrolytes obeyed non-Debye behavior. The total ionic transference number for the 30wt% glycerol sample was 0.991, and the conduction mechanism for this sample followed the quantum mechanical tunneling (QMT) model. Linear sweep voltammetry (LSV) showed that this sample was electrochemically stable up to 1.90V. The highest conducting sample was used in the fabrication of an electrical double layer capacitor (EDLC) cell.

机译：这项工作的重点是由淀粉-壳聚糖共混物，碘化铵（NH4I）和甘油组成的聚合物电解质。傅立叶红外光谱（FTIR）分析证实了淀粉-壳聚糖-NH4I-甘油的相互作用。最高的室温电导率是（1.28 +/- 0.07）x 10（-3）S cm（-1），由包含30wt％甘油的样品获得。介电研究表明，电解质遵循非德拜行为。 30wt％甘油样品的总离子转移数为0.991，该样品的导电机理遵循量子力学隧穿（QMT）模型。线性扫描伏安法（LSV）显示该样品在高达1.90V的电压下电化学稳定。导电性最高的样品用于制造双电层电容器（EDLC）电池。

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《Molecular crystals and liquid crystals》 |2014年第null期|共16页
作者
Yusof Y. M.; Majid N. A.; Kasmani R. M.; Illias H. A.; Kadir M. F. Z.;
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正文语种 eng
中图分类晶体学;
关键词
starch-chitosan blend; EDLC; conductivity; ammonium iodide; Polymer electrolyte;

机译：淀粉-壳聚糖共混物;EDLC;电导率;碘化铵;聚合物电解质;

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1. The Effect of Plasticization on Conductivity and Other Properties of Starch/Chitosan Blend Biopolymer Electrolyte Incorporated with Ammonium Iodide [J] . Yusof Y. M., Majid N. A., Kasmani R. M., Molecular crystals and liquid crystals . 2014,第Null期

机译：增塑对掺碘化铵的淀粉/壳聚糖共混生物聚合物电解质电导率及其他性能的影响
2. Conductivity and Electrical Properties of Chitosan - Methylcellulose Blend Biopolymer Electrolyte Incorporated with Lithium Tetrafluoroborate [J] . Yahya A.K. Salman, Omed Gh. Abdullah, Rawad R. Hanna, International Journal of Electrochemical Science . 2018,第4期

机译：四氟硼酸锂与壳聚糖-甲基纤维素共混生物聚合物电解质的电导率和电性能
3. Electrical properties of proton conducting solid biopolymer electrolytes based on starch-chitosan blend [J] . M. F. Shukur, R. Ithnin, M. F. Z. Kadir Ionics . 2014,第7期

机译：基于淀粉-壳聚糖共混物的质子传导固体生物聚合物电解质的电学性质
4. Characterization of Chitosan-starch Blend Based Biopolymer Electrolyte Doped with Ammonium Nitrate [C] . Ahmad Hakimi Shaffie, Azwani Sofia Ahmad Khiar International Conference on Recent Advancements in Science and Technology . 2017

机译：用硝酸铵掺杂壳聚糖 - 淀粉混合物的壳聚糖混合物的生物聚合物电解质
5. Physico-chemical characterization and composition-property relationships of blends containing the biopolymer chitosan and small molecule amphiphiles for local drug delivery. [D] . Grant, Justin. 2009

机译：包含生物聚合物壳聚糖和小分子两亲物的掺合物的物理化学特征和组成-性质关系，用于局部药物递送。
6. The Study of Plasticized Amorphous Biopolymer Blend Electrolytes Based on Polyvinyl Alcohol (PVA): Chitosan with High Ion Conductivity for Energy Storage Electrical Double-Layer Capacitors (EDLC) Device Application [O] . Shujahadeen B. Aziz, Jihad M. Hadi, Elham M. A. Dannoun, 2020

机译：基于聚乙烯醇（PVA）的增塑无定形生物聚合物混合电解质的研究：壳聚糖具有高离子传导性的储能双层电容（EDLC）装置应用
7. The Study of Plasticized Sodium Ion Conducting Polymer Blend Electrolyte Membranes Based on Chitosan/Dextran Biopolymers: Ion Transport, Structural, Morphological and Potential Stability [O] . Ahmad S.F.M. Asnawi, Shujahadeen B. Aziz, Iver Brevik, 2021

机译：基于壳聚糖/葡聚糖生物聚合物的塑化钠离子传导聚合物共混电解质膜的研究：离子转运，结构，形态和潜在稳定性

The Effect of Plasticization on Conductivity and Other Properties of Starch/Chitosan Blend Biopolymer Electrolyte Incorporated with Ammonium Iodide

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