The Hydrotropic Effect of Ionic Liquids in Water-in-Salt Electrolytes**

Becker Maximilian; Rentsch Daniel; Reber David; Aribia Abdessalem; Battaglia Corsin; Kuehnel Ruben-Simon

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The Hydrotropic Effect of Ionic Liquids in Water-in-Salt Electrolytes**

机译：离子液体在水 - 盐电解质中的水辐射效应**

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Water-in-salt electrolytes have successfully expanded the electrochemical stability window of aqueous electrolytes beyond 2 V. Further improvements in stability can be achieved by partially substituting water with either classical organic solvents or ionic liquids. Here, we study ternary electrolytes composed of LiTFSI, water, and imidazolium ionic liquids. We find that the LiTFSI solubility strongly increases from 21 mol kg(-1) in water to up to 60 mol kg(-1) in the presence of ionic liquid. The solution structure is investigated with Raman and NMR spectroscopy and the enhanced LiTFSI solubility is found to originate from a hydrotropic effect of the ionic liquids. The increased reductive stability of the ternary electrolytes enables stable cycling of an aqueous lithium-ion battery with an energy density of 150 Wh kg(-1) on the active material level based on commercially relevant Li4Ti5O12 and LiNi0.8Mn0.1Co0.1O2 electrode materials.

机译：盐包水电解质成功地将水电解质的电化学稳定性窗口扩展到2V以上。通过用经典有机溶剂或离子液体部分取代水，可以进一步提高稳定性。在这里，我们研究了由LiTFSI、水和咪唑离子液体组成的三元电解质。我们发现，在离子液体存在下，LiTFSI在水中的溶解度从21mol-kg（-1）强烈增加到高达60mol-kg（-1）。通过拉曼光谱和核磁共振谱对溶液结构进行了研究，发现LiTFSI溶解度的增强源于离子液体的水致效应。三元电解质的还原稳定性增强，使得水性锂离子电池能够在基于商业相关Li4Ti5O12和LiNi0的活性材料水平上以150 Wh kg（-1）的能量密度进行稳定循环。8Mn0。1Co0。电极材料。

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来源
《Angewandte Chemie》 |2021年第25期|共9页
作者
Becker Maximilian; Rentsch Daniel; Reber David; Aribia Abdessalem; Battaglia Corsin; Kuehnel Ruben-Simon;
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作者单位

Empa Swiss Fed Labs Mat Sci &

Technol CH-8600 Dubendorf Switzerland;

Empa Swiss Fed Labs Mat Sci &

Technol CH-8600 Dubendorf Switzerland;

Empa Swiss Fed Labs Mat Sci &

Technol CH-8600 Dubendorf Switzerland;

Empa Swiss Fed Labs Mat Sci &

Technol CH-8600 Dubendorf Switzerland;

Empa Swiss Fed Labs Mat Sci &

Technol CH-8600 Dubendorf Switzerland;

Empa Swiss Fed Labs Mat Sci &

Technol CH-8600 Dubendorf Switzerland;

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原文格式 PDF
正文语种 eng
中图分类应用化学;
关键词
aqueous batteries; electrochemistry; hydrotropy; ionic liquids; water-in-salt electrolytes;

机译：水电池;电化学;亲水性;离子液体;盐电解质中的水;

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6. Volumetric and viscosity properties of water-in-salt lithium electrolytes: A comparison with ionic liquids and hydrated molten salts [J] . Horwitz Gabriela, Steinberg Paula Y., Corti Horacio R. The Journal of Chemical Thermodynamics . 2021,第1期

机译：水 - 盐锂电解质的体积和粘度性质：与离子液体和水合熔盐的比较
7. Asymmetric Composition of Ionic Aggregates and the Origin of High Correlated Transference Number in Water-in-Salt Electrolytes [J] . Yu Zhou, Curtiss Larry A., Winans Randall E., Journal of physical chemistry letters . 2020,第4期

机译：离子聚集体的不对称组成和水 - 盐电解质中高相关转移数的起源
8. Mass and Charge Transport in the Polymer Ionic-Liquid System PEO-EMImI: From Ionic-Liquid-in-Polymer to Polymer-in-Ionic-Liquid Electrolytes [J] . Koesters Johannes, Schoenhoff Monika, Stolwijk Nicolaas A. The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2015,第17期

机译：聚合物离子液体系统中的质量和电荷传输PEO-EMImI：从离子液体聚合物到离子液体聚合物电解质
9. Unraveling the Mechanism of Enhanced Lithium Salt Solubility in Water-in-Salt Electrolytes Containing Ionic Liquids [C] . Maximilian Becker, David Reber, Ruben-Simon Kuehnel, Pacific Rim Meeting on Electrochemical and Solid-State Science . 2020

机译：揭示含离子液体水 - 盐电解质中增强锂盐溶解度的机理
10. Nanopore stochastic sensing with ionic liquid supporting electrolyte and ionic liquid based water quantitation using gas chromatography. [D] . Jayawardhana, Dilani A. 2010

机译：使用支持电解质的离子液体进行纳米孔随机传感，并使用气相色谱法对基于离子液体的水进行定量。
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12. Hybrid Ionic Liquid/water-in-Salt Electrolytes Enable Stable Cycling of LTO/NMC811 Full Cells [O] . Maximilian Becker, David Reber, Abdessalem Aribia, 2020

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13. First Principles Modeling of Structure and Transport in Solid Polymer Electrolytes, Ionic Liquids, and Methanol/Water Mixtures. [R] . Paddison, S. J. 2016

机译：固体聚合物电解质，离子液体和甲醇/水混合物中结构和运输的第一原理建模。

The Hydrotropic Effect of Ionic Liquids in Water-in-Salt Electrolytes**

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