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Compressibilities of aqueous electrolyte solutions
Australian Journal of Chemistry, 1981The Tammann-Tait-Gibson (TTG) model was used to derive and analyse an equation for the isothermal compressibility of aqueous electrolyte solutions as a function of temperature and pressure. The linear equation of Fk in c½ (Fk is the apparent molal compressibility, c is in mol 1-1) is shown to be inadequate.
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Recent Advances in Electrolytes for “Beyond Aqueous” Zinc‐Ion Batteries
Advanced Materials, 2022Yanqun Lv, Longtao, Chun-Yi Zhi
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Modeling aqueous electrolyte solutions
Fluid Phase Equilibria, 2008Christoph Held +2 more
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STRUCTURE OF AQUEOUS AND NON-AQUEOUS ELECTROLYTE SOLUTIONS
As is known, solutions of electrolytes in solvents with hydrogen bonds have abnormally high values of dielectric constant, electrical conductivity (solutions of acids, alkalis and salts) and thermal conductivity. These facts, in our opinion, cannot be explained without taking into account the structure and structure of solutions.openaire +1 more source
Non-aqueous electrolyte solutions
Naturwissenschaften, 1983Gores, H.-J., Barthel, J.
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Water–Salt Oligomers Enable Supersoluble Electrolytes for High‐Performance Aqueous Batteries
Advanced Materials, 2021Shengying Cai, Chang Liu, Hao Chen
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Anticatalytic Strategies to Suppress Water Electrolysis in Aqueous Batteries
Chemical Reviews, 2021Xiulei Ji
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Decoupled aqueous batteries using pH-decoupling electrolytes
Nature Reviews Chemistry, 2022Yun-Hai Zhu, Yangfeng Cui
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