本书由英国皇家化学会出版的全新教科书《电解质、界面和界相》(Electrolytes, Interfaces and Interphases)...
Banerjee, A., Wang, X., Fang, C., Wu, E. A. & Meng, Y. S. Interfaces and interphases in all-solid-state batteries with inorganic solid electrolytes.Chem. Rev.120, 6878–6933 (2020). ArticleGoogle Scholar Lee, Y. G. et al. High-energy long-cycling all-solid-state lithium metal ...
and dendrite-induced short circuits—derailed early efforts to commercialize such lithium-metal batteries. Here we consider approaches for rationally designing electrolytes and Li-metal/electrolyte interfaces for stable, dendrite-free operation of lithium-metal batteries. On the basis of fundamental understan...
These characteristics result in the high kinetics due to the low de-solvation energy and the formation of thin and inorganic-rich interfaces. The anti-reduction properties of ethers also enable their reversible co-intercalation into certain electrodes, avoiding the de-solvation and enabling operation ...
converting even more LYX into Y and LiX(Fig.5b).This scenario was supported by the electronic conductivities of the interphases,which were measured using a direct-current polarization method(details described in Fig.S4 and the EXPERIMENTAL SECTION)[22,23].As shown in Table S1,the electronic ...
The quasi-solid electrolyte based on Poly(vinylidene fluoride-co-hexafluoropropylene) has drawn great interest owing to good wettability and compatibility with lithium metal anode . However, the low ionic conductivity and lithium-ion transfer number limit the practical application of Poly(vinylidene fluor...
Fig. 1. Summary of the interfacial issues in ASSBs with TSEs and the corresponding strategies to overcome them. The interfacial problems include (1) physical contact loss at the electrode/TSEs interface, (2) side reactions at the cathode/TSEs, carbon/TSEs, and Li-metal anode/TSEs interfaces,...
Interphases Between Electrolytes and Anodes in Li-Ion Battery Mengqing Xu, Lidan Xing, Weishan Li Pages 227-282 On the Surface Chemistry of Cathode Materials in Li-Ion Batteries Susai Francis Amalraj, Ronit Sharabi, Hadar Sclar, Doron Aurbach ...
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Interfaces 15, 1513–1524 (2023). Article Google Scholar Li, W., Tchelepi, H. A., Ju, Y. & Tartakovsky, D. M. Stability-guided strategies to mitigate dendritic growth in lithium-metal batteries. J. Electrochem. Soc. 169, 060536 (2022). Article Google Scholar Li, W., Tchelepi, H...