Study on Fundamental Properties of Solvate Electrolytes and Their Application in Batteries

Dokko, Kaoru

doi:10.5796/electrochemistry.22-00072

Cited by 5 publications

(3 citation statements)

References 64 publications

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“…His award paper in this issue is mainly related to his achievement for fundamental properties of solvate electrolytes and their application in batteries. 63 One of the awardees, Shida is currently an assistant professor of Yokohama National University. Shida received his PhD in engineering from Tokyo Institute of Technology in 2016.…”

Section: Scientific Achievement Award Of the Electrochemicalmentioning

confidence: 99%

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History of ECSJ Journal Series and Introduction of Award Winners in 2022

Mizuhata

Ueda

2022

Electrochemistry

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The Editorial Board outlines the history of publication by the Electrochemical Society of Japan as it celebrates its 90th anniversary. The history of the journal is told by the Society's strong interest in publishing and its international development in line with current trends. The growing presence of the journal is described. This issue will also include the Comprehensive Papers by the winners of the ECSJ awards. The rationale for these awards will also be explained.

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Section: Scientific Achievement Award Of the Electrochemicalmentioning

confidence: 99%

“…History of Special Features of Denki Kagaku (Presently Electrochemistry) (Vol [56][57][58][59][60][61][62][63][64][65][66]. and Electrochemistry (vol.…”

mentioning

confidence: 99%

History of ECSJ Journal Series and Introduction of Award Winners in 2022

Mizuhata

Ueda

2022

Electrochemistry

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“…Recently, highly concentrated electrolytes containing solvents other than carbonates have attracted immense attention as promising electrolytes for next-generation batteries. [6][7][8][9][10][11][12][13][14] The oxidative stability of the electrolytes improves by increasing the Li salt concentration. 15 Moreover, an anionderived passivation layer forms on the graphite anode in Li-ion batteries when Li salts with amide-type anions (LiN(SO2F)2 and LiN(SO2CF3)2) are used.…”

Section: Introductionmentioning

confidence: 99%

Phase Behaviors and Ion Transport Properties of LiN(SO2CF3)2/Sulfone Binary Mixtures

et al. 2023

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Highly concentrated Li salt/aprotic solvent solutions are promising electrolytes for next-generation batteries. Understanding the Li + ion transport process is crucial for designing novel battery electrolytes.In this study, we systematically investigated the phase behavior, solvate structures, and Li + transport properties of binary mixtures comprising lithium bis(trifluoromethanesulfonyl)amide (LiTFSA) and various sulfones, such as sulfolane (SL), 3-methyl sulfolane (MSL), dimethyl sulfone (DMS), ethyl methyl sulfone (EMS), and ethyl isopropyl sulfone (EiPS). Except for the MSL system, the [LiTFSA]/[sulfone] = 1/2 mixtures remained in a liquid state at room temperature, thus enabling a systematic comparison of the Li + transport properties in the highly concentrated electrolytes. In highly concentrated liquid electrolytes, Li + ions diffuse by exchanging ligands (sulfone and TFSA). Li + ions diffuse faster than TFSA in all electrolytes except the EiPS-based electrolyte at a composition of [LiTFSA]/[sulfone] = 1/2, resulting in high Li + transference numbers. SL-based electrolytes show higher ionic conductivity and Li + transference numbers than other sulfone-based electrolytes. Consequently, sulfone solvents with compact molecular sizes and low energy barriers of conformational change are favorable for enhancing the Li + ion transport in the electrolytes.

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