电化学
插层(化学)
碱金属
阳极
离子
材料科学
扩散
纳米技术
化学
无机化学
化学工程
电极
物理化学
有机化学
热力学
物理
工程类
作者
Yang Liu,Zehang Sun,Xuan Sun,Yue Lin,Ke Tan,Jinfeng Sun,Longwei Liang,Linrui Hou,Changzhou Yuan
标识
DOI:10.1002/anie.201913343
摘要
Abstract Ultrathin core–shell V 3 S 4 @C nanosheets assembled into hierarchical nanotubes (V 3 S 4 @C NS‐HNTs) are synthesized by a self‐template strategy and evaluated as general anodes for alkali‐ion batteries. Structural/physicochemical characterizations and DFT calculations bring insights into the intrinsic relationship between crystal structures and electrochemical mechanisms of the V 3 S 4 @C NS‐HNTs electrode. The V 3 S 4 @C NS‐HNTs are endowed with strong structural rigidness owing to the layered VS 2 subunits and interlayer occupied V atoms, and efficient alkali‐ion adsorption/diffusion thanks to the electroactive V 3 S 4 ‐C interfaces. The resulting V 3 S 4 @C NS‐HNTs anode exhibit distinct alkali‐ion‐dependent charge storage mechanisms and exceptional long‐durability cyclic performance in storage of K + , benefiting from synergistic contributions of pseudocapacitive and reversible intercalation/de‐intercalation behaviors superior to those of the conversion‐reaction‐based Li + ‐/Na + ‐storage counterparts.
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