Metallic sodium anodes have attracted great attention because of their high capacity and low redox potential.However,they still encounter various challenges in strip-ping/plating efficiency and cycling stability due to dendrite formation and the large volume fluctuation.To address these issues,here we engineer a three-dimensional(3D)mixed conducting scaffold for metallic sodium anodes in which an interconnected ion-conductive pathway is incor-porated by adding active additives,which firmly bond with sodium at high temperature.Further incorporation of a 3D Ni foam offers the electron transport pathway with inherent high electronic conductivity.Such a 3D mixed conducting scaffold can also lower the local current density and alle-viate volume fluctuation effectively,which ensures a homogeneous ion distribution and long cycle lifespan.Our results provide an important insight into the design of high stability and high-safe metallic sodium anodes.

Hua-Bin Sun;Hao-Yu Fu;Yang-Yang Huang;Xue-Ying Zheng;Ying Huang;Rui Lin;Wei Luo

School of Automotive Study,Tongji University,Shanghai 201804,China;Institute of New Energy for Vehicles,School of Materials Science and Engineering,Tongji University,Shanghai 201804,China;Department of Chemistry,Virginia Tech,Blacksburg,VA 24061,USA

稀有金属（英文版）

[1]Hua-Bin Sun;Hao-Yu Fu;Yang-Yang Huang;Xue-Ying Zheng;Ying Huang;Rui Lin;Wei Luo-.Design of a 3D mixed conducting scaffold toward stable metallic sodium anodes)[J].稀有金属（英文版）,2022(10):3336-3342

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