Ionıc Conductıvıty, Dıelectrıc, And Structural Insıghts Of Deep Eutectıc Solvent-Based Polymer Electrolyte: A Revıew

Q3 Chemical Engineering Recent Innovations in Chemical Engineering Pub Date : 2023-08-30 DOI:10.2174/2405520416666230830125120

Siti Zafirah Zainal Abidin, Nora Aishah Ahmad Shaharuddın

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Abstract

The exponential concern about environmental concerns has heavily driven the development of green technology. In light of these needs, Deep Eutectic Solvent (DES) emerged as a green solvent and additive due to its minimal toxicity and volatility, biodegradability, biocompatibility, simplicity of synthesis, high yields and purity, and the availability of its precursors. This review is intended to summarise and discuss polymer electrolytes based on DES for better insight into the potential of replacing conventional organic solvents or ionic liquids for energy storage applications in the aspect of their electrical and structural properties. Therefore, an examination of dielectric studies is conducted as they hold significance in establishing a correlation between the rise in ionic conductivity and the augmentation of freely movable ions, thereby highlighting the importance of investigating the dielectric properties of an electrolyte. Besides, XRD and morphological studies in this work can show how ionic conductivities can influence the size of pores in DES-based polymer electrolytes.

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Ionıc Conductıvıty, Dıelectrıc，和结构Insıghts深层Eutectıc溶剂型聚合物电解质:一个Revıew

对环境问题的指数级关注极大地推动了绿色技术的发展。鉴于这些需求，深共晶溶剂(DES)因其毒性和挥发性小、可生物降解、生物相容性好、合成简单、产率高、纯度高、前体容易获得等特点，成为一种绿色溶剂和添加剂。本文旨在总结和讨论基于DES的聚合物电解质，以便更好地了解其在电学和结构性能方面取代传统有机溶剂或离子液体用于储能应用的潜力。因此，对介电研究进行了检查，因为它们在建立离子电导率的上升与自由移动离子的增加之间的相关性方面具有重要意义，从而突出了研究电解质介电特性的重要性。此外，本工作的XRD和形态学研究可以显示离子电导率如何影响des基聚合物电解质中孔隙的大小。

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Recent Innovations in Chemical Engineering Chemical Engineering-Chemical Engineering (all)

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2.10

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0.00%

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