Huifeng Zhuang,Hong Xiao,Tengfei Zhang,Fanchao Zhang,Pinyu Han,Mengyuan Xu,Wenjing Dai.The ZnHCNF Fiber with Ultrahigh-Content Gradient-Distributed Single-Atom Zn-N4 Catalytic Sites Driving Selective Deposition and Encapsulation of Li Ions for Li Metal Anode.[期刊]:Applied Catalysis B: Environment and Energy,2024:DOI:10.1016/j.apcatb.2024.124916 Fanchao Zhang,Zihuan Tang,Tengfei Zhang,Hong Xiao,Huifeng Zhuang,Pinyu Han,Lei Jiang.Electronic Modulation and Symmetry-Breaking Engineering of Single-Atom Catalysts Driving Long-Cycling Li-S Battery.[期刊]:Angewandte Chemie International Edition,2024:e202418749 Huifeng Zhuang,Hong Xiao,Tengfei Zhang,Fanchao Zhang,Pinyu Han,Mengyuan Xu,Wenjing Dai,Lei Jiang.LiF-Rich Alloy-Doped SEI Enabling Ultra-Stable and High-Rate Li Metal Anode.[期刊]:Angewandte Chemie International Edition,2024,63:e202407315 Mengyuan Xu,Lilong Zhang,Xiao Liang,Hong Xiao,Huifeng Zhuang,Fanchao Zhang,Tengfei Zhang,Pinyu Han,Wenjing Dai,Fan Gao.Dual-Atom Fe(II,III)N2(µ2-N)2Cu(I,II)N Moieties Anchored on Porous N-Doped Carbon Driving High-Efficiency Oxygen Reduction Reaction.[期刊]:Applied Catalysis B: Environment and Energy,2024,349:123866 Huifeng Zhuang,Tengfei Zhang,Hong Xiao,Fanchao Zhang,Pinyu Han,Hongfei Gu.Free-Standing Cross-Linked Hollow Carbonaceous Nanovesicle Fibers with Atomically Dispersed CoN4 Electrocatalytic Centers Driving High-Performance Li-S Battery.[期刊]:Applied Catalysis B: Environmental,2024,340:123273 Tengfei Zhang,Dengfeng Luo,Hong Xiao,Xiao Liang,Fanchao Zhang,Huifeng Zhuang,Mengyuan Xu,Wenjing Dai.Non-Metallic-Bonding Fe-Mn Diatomic Pairs Anchored on Hollow Carbonaceous Nanodisks for High-Performance Li-S Battery.[期刊]:Small,2023:202306806 Hong Xiao,Kai Li,Tengfei Zhang,Xiao Liang,Fanchao Zhang,Huifeng Zhuang.High Loading Atomically Distributed Fe Asymmetrically Coordinated with Pyridinic and Pyrrolic N on Porous N-Rich Carbon Matrix Driving High Performance of Li-S Battery.[期刊]:Chemical Engineering Journal,2023,471:144553 Fanchao Zhang,Zihuan Tang,Tengfei Zhang,Hong Xiao,Huifeng Zhuang,Xiao Liang.Enhancing Sulfur Redox Conversion of Active Iron Sites by Modulation of Electronic Density for Advanced Lithium-Sulfur Battery.[期刊]:Small Methods,2023:202300519 Tengfei Zhang,Dengfeng Luo,Hong Xiao,Xiao Liang,Fanchao Zhang,Huifeng Zhuang.Atomically dispersed MnN2O2 electrochemical active centers on hollow carbonaceous support driving high performance of Li-S battery.[期刊]:Small,2023:2302249 Fanchao Zhang,Zihuan Tang,Lirong Zheng,Tengfei Zhang,Mengyuan Xu,Hong Xiao,Huifeng Zhuang,Pinyu Han.Edge-distributed iron single-atom moiety with efficient “trapping-conversion” for polysulfides driving high-performance of Li-S battery.[期刊]:Applied Catalysis B: Environmental,2023,334:122876