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Comparing the Thermal and Electrochemical Stabilities of Two Structurally Similar Ionic Liquids

机译：比较两种结构相似的离子液体的热稳定性和电化学稳定性

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Here we focus on the thermal and variable temperature electrochemical stabilities of two ionic liquids (ILs) having a common tributyloctyl phosphonium cation [P ] and two different orthoborate anions: bis(mandelato)borate [BMB] and bis(salicylato)borate [BScB] . The thermo-gravimetric analysis data suggest that [P ][BScB] is thermally more stable than [P ][BMB] in both nitrogen atmosphere and air, while the impedance spectroscopy reveals that [P ][BScB] has higher ionic conductivity than [P ][BMB] over the whole studied temperature range. In contrast, the electrochemical studies confirm that [P ][BMB] is more stable and exhibits a wider electrochemical stability window (ESW) on a glassy carbon electrode surface as compared to [P ][BScB]. A continuous decrease in the ESWs of both ILs is observed as a function of operation temperature.

机译：在这里，我们着眼于两种具有共同的三丁基辛基phospho阳离子[P]和两种不同原硼酸根阴离子的离子液体（ILs）的热稳定性和可变温度稳定性：双（mandelato）硼酸根[BMB]和双（salicylato）硼酸根[BScB] 。热重分析数据表明，[P] [BScB]在氮气和空气中比[P] [BMB]热稳定，而阻抗谱显示[P] [BScB]具有比[P] [BMB]高的离子传导性。 P] [BMB]在整个研究温度范围内。相反，电化学研究证实，与[P] [BScB]相比，[P] [BMB]更稳定，并且在玻璃碳电极表面上具有更宽的电化学稳定性窗口（ESW）。观察到两个IL的ESW连续降低，这是工作温度的函数。

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期刊名称 Molecules
作者
Faiz Ullah Shah; Inayat Ali Khan; Patrik Johansson;
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作者单位

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年(卷),期 2020(25),10
年度 2020
页码 -1
总页数 10
原文格式 PDF
正文语种
中图分类分子生物学;
关键词
ionic liquids; thermo-gravimetric analysis; ionic conductivity; electrochemical stability;

机译：离子液体热重分析离子电导率电化学稳定性;

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1. The effect of structural modifications on the thermal stability, melting points and ion interactions for a series of tetraaryl-phosphonium- based mesothermal ionic liquids [J] . Cassity Cody A., Siu Benjamin, Soltani Mohammad, Physical chemistry chemical physics: PCCP . 2017,第47期

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2. Enhanced electrochemical, structural, optical, thermal stability and ionic conductivity of (PEO/PVP) polymer blend electrolyte for electrochemical applications [J] . Chapi Sharanappa, Raghu S., Devendrappa H. Ionics . 2016,第6期

机译：（PEO / PVP）聚合物共混电解质在电化学方面的增强的电化学，结构，光学，热稳定性和离子电导率
3. Thermal, electrochemical and radiolytic stabilities of ionic liquids [J] . Xue Zhimin, Qin Li, Jiang Jingyun, Physical chemistry chemical physics: PCCP . 2018,第13期

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4. The Electrochemical Properties of the Low-Cost and Thermally-Stable Ionic liquids [C] . Jingyi Yue, Varun K. Kolanka, Yan Cao, Annual conference of the North American Thermal Analysis Society . 2014

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5. Thermal analysis and dielectric spectral characteristics of poly(ionic liquids): Towards exploration of their utility in capacitive electrochemical devices. [D] . Zhao, Meng. 2014

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6. Comparison of the Performances of Different Computational Methods to Calculate the Electrochemical Stability of Selected Ionic Liquids [O] . Annalisa Paolone, Sergio Brutti 2021

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7. Structural Factors Determining Thermal Stability Limits of Ionic Liquid/MOF Composites: Imidazolium Ionic Liquids Combined with CuBTC and ZIF8 [O] . -1

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Comparing the Thermal and Electrochemical Stabilities of Two Structurally Similar Ionic Liquids

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