Polymeric Iodine Transport Layer Enabled High Areal Capacity Dual Plating Zinc‐Iodine Battery
D Yin, B Li, L Zhao, N Gao, Y Zhang, J Feng, X Cui, C Xiao, Y Su, K Xi, ...Angewandte Chemie International Edition 64 (6), e202418069
Laser technologies in manufacturing functional materials and applications of machine learning-assisted design and fabrication
X Zhang, L Zhou, G Feng, K Xi, H Algadi, M DongAdvanced Composites and Hybrid Materials 8 (1), 1-19
Low‐Frequency Phonon Dispersion Relation Enabling Stable Cathode from Spent Lithium‐Ion Batteries
K Jia, Y He, Z Piao, Z Cao, M Zhang, Y Zhu, L Li, Z Liang, RV Kumar, ...Advanced Materials 37 (6), 2413753
Decoupling the roles of grain boundary strength and grain size hidden in grain-level electro-chemo-mechanical failure of solid-state electrolyte
M Xu, X Wang, Z Jin, X Jiao, Y Gao, Z Song, X Xu, K Xi, Y LiuJournal of Energy Chemistry 101, 685-691
Li+ Quasi‐Grotthuss Topochemistry Transport Enables Direct Regeneration of Spent Lithium‐Ion Battery Cathodes
Y He, K Jia, Z Piao, Z Cao, M Zhang, P Li, Z Li, Z Jiang, G Yang, H Xi, ...Angewandte Chemie, e202422610
Electrolyte Engineering to Construct Robust Interphase with High Ionic Conductivity for Wide Temperature Range Lithium Metal Batteries
Y Li, B Wen, N Li, Y Zhao, Y Chen, X Yin, X Da, Y Ouyang, X Li, P Kong, ...Angewandte Chemie International Edition 64 (2), e202414636
Elimination of Concentration Polarization Under Ultra‐High Current Density Zinc Deposition by Nanofluid Self‐Driven Ion Enrichment
N Gao, M Cui, K Xi, T Deng, D Yin, J He, X Cui, L Liu, W Li, S Ding, G Gao, ...Advanced Materials, 2419034
Densely packed spherical zinc deposition by cation buffer strategy enabled high-rate alkaline zinc batteries with lean electrolyte
Y Zhang, S Shen, Z Kang, N Gao, D Yin, L Zhao, B Wen, K Xi, Y Su, ...Energy & Environmental Science
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