designing better electrolytes

Electrolytes and the associated interphases constitute the critical components to support the emerging battery chemistries that promise tantalizing energy but involve drastic phase and structure complications. Designing better electrolytes and interphases holds the key to the success of these.Electrolytes and the associated interphases constitute the critical components to support the emerging battery chemistries that promise tantalizing energy but involve drastic phase and structure complications. Designing better electrolytes

Google ScholarMeng, Y. S., Srinivasan, V. & Xu, K. Designing better electrolytes.Science378, 1065 (2022)Rational designs of solid polymer electrolytes with high ion conduction are critical in enabling the creation of advanced lithium batteries. However, known polymer electrolytes have much lower ionic conductivity than liquid/ceramics at room temperature, which limits their practical use.

Ionic liquids to the rescue Overcoming the ionic conductivity limitations of polymer electrolytes.Electrochemical capacitors with polymer electrolytes based on ionic liquids.

Magnesium–sulfur batteries promise high volumetric energy density,enhanced safety,and low cost for electrochemical energy storage.The current obstacles to practical applications of reliable magnesium–sulfur batteries are finding electrolytes that can meet a multitude of rigorous requireme.

最近,来自芝加哥大学的Y. Shirley Meng和来自美国阿贡国家实验室的Venkat Srinivasan和Kang Xu在国际期刊《Science》上发表题为 Designing better electrolytes 的综述性文章.作为唯一一个与设备中其他所有部件相连接的部件,电解质必须与此同时满足多个标准。这些标准包括传输离子,与此同时在电极之间绝缘电子,并保持对极端化学性质的电极的稳定性:强氧化性正极和强还原性负极。在大多数先进的电池中,两个电极的工作电位远

Y. Shirley Meng*, Venkat Srinivasan*, Kang Xu*, Science, Designing better electrolytes, 2022, https://www.science.org/doi/10.1126/scienc

Scientists turn to AI to design better battery electrolytes.“While we are locked into a particular concept for electrolytes that will work with today’s commercial batteries, for beyond-lithium-ion batteries the design and development of different electrolytes will be crucial,” said Shirley Meng, chief scientist at the Argonne Collaborativ.

. Designing better electrolytes 378: eabq3750. PMIDDOI: Srinivasan VXu KScience (New York, N.Y.)3648063010.1126/science.abq37500.382 2022 Tan S, Kim JM, Corrao A, Ghose S, Zhong H, Rui N, Wang X, Senanayake S, Polzin BJ, Khalifah P,, Liu J,,, Cao X, et al. Unravelling the convoluted and dynamic interphasial mechanisms on Li metal anodes PMIDDOI: Xiao JYang XQNature Nanotechnology3647110910.1038/s41565-022-01273-30.399 2022 Zou P, Lin R, Pollard TP, Yao L, Hu E, Zhang R, He Y, Wang C, West WC, Ma L, Borodin O,Xu K, Yang XQ, Xin HL. Localized Hydro

Composite polymer electrolytes (CPEs) have great commercialization potential because they can take advantage of the properties of inorganic and polymer electrolytes, which enable them to realize relatively high ionic conductivity, better electrode contacts, and superior mechanic.Composite polymer electrolytes (CPEs) have great commercialization potential because they can take advantage of the properties of inorganic and polymer electrolytes, which enable them to realize relatively high ionic condu

美国芝加哥大学孟颖(Y. Shirley Meng)教授、阿贡国家实验室Venkat Srinivasan教授和许康教授课题组合作以 Designing better electrolytes 为