低粘度离子液体作为新型掺杂剂在聚甲基丙烯酸甲酯聚合物电解质中的应用：详细的光电化学研究

Q3 Chemical Engineering

Recent Innovations in Chemical Engineering Pub Date : 2023-08-09 DOI:10.2174/2405520416666230809152422

P. Singh, Yashika Bajaj, F. Latif

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引用次数: 0

摘要

固体聚合物电解质（SPE）是超级电容器的一种有利电解质，由于其灵活性和高导电性良好的电极-电解质界面而被使用。基于聚甲基丙烯酸甲酯（PMMA）的SPE由于其合成的完整性、良好的机械稳定性、低结合能、与离子盐的低质量密度以及优异的电荷载流子迁移率而受到广泛关注。令人感兴趣的离子液体显示出它们在增强导电性和抑制结晶性方面的新颖性，即作为增塑剂和离子源。由于这些有利的性质，离子液体（ILs）似乎是开发高效电化学器件的一个很好的参与者。克服离子电导率（σ）低和机械稳定性差的问题。ILs被认为是新颖的候选者。本综述旨在确定离子液体作为增塑剂而非溶剂的作用。由于这些离子液体的广泛适用性，我们将重点介绍聚醚的一个常见例子，即使用溶液浇铸法的PMMA。还详细讨论了电学和电化学。基于本文报道的电学和光电化学性能，我们可以向科学界保证，离子液体可以作为高效电化学器件的潜在候选者，如增塑剂。

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Low Viscosity Ionic Liquids as novel dopants in Poly (methyl methacrylate) polymer electrolyte: Detailed Photoelectrochemical Studies

A propitious electrolyte for supercapacitors, solid polymer electrolytes (SPEs) has been used because of their flexibility and highly conducting good electrode-electrolyte interface. Poly (methyl methacrylate) (PMMA)-based SPEs have acknowledged extensive interest due to their integrity in synthesis, good mechanical stability, low binding energy, low mass density with ionic salts, and magnificent charge carrier mobility. Interesting ionic liquids show their novelty towards conductivity enhancement and suppressing crystallinity i.e. acts as a plasticizer as well as an ionic source. Due to these advantageous properties, ionic liquids (ILs) seem to be a good player in developing highly efficient electrochemical devices. To overcome the low ionic conductivity (σ) and poor mechanical stability. ILs assume to be novel candidates. This review is toward defining the role of ILs as plasticizers, not as a solvent. Due to the widespread applicability of these ILs, we focus our review on taking a common example of polyether i.e. PMMA using the solution cast method. Electrical and electrochemical are also discussed in detail. On the the basis of electrical and photoelectrochemical performance reported in this article, we can assure the scientific community that ILs can act as a potential candidate like a plasticizer for highly efficient electrochemical devices.

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来源期刊

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

CiteScore

2.10

自引率

0.00%

发文量