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林健健

Paper Publications

Metal oxyacid salts -confined pyrolysis towards hierarchical porous metal oxide@carbon (MO@C) composites as lithium -ion battery anodes

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Key Words:HIGH-PERFORMANCE; VANADIUM-OXIDES; CAPACITY; STORAGE; WO3; INTERCALATION; NANOPARTICLES; NANOSHEETS; NANOTUBES; ELECTRODE

Abstract:Transition metal oxides (TMOs) have been thought of potential anodic materials for lithium-ion batteries (LIBs) owing to their intriguing properties. However, the limited conductivity and drastic volume change still hinder their practical applications. Herein, a metal oxyacid salts-confined pyrolysis strategy is proposed to construct hierarchical porous metal oxide@carbon (MO@C, MO = MoO2, V(2)0(5), and WO3) composites for solving the aforementioned problems. A water-evaporation -induced self-assembly mechanism has been put forward for fabricating the M0@polyvinyl pyrrolidone (PVP)@SiO2 precursors. After the following pyrolysis and etching process, small MO nanoparticles can be successfully encapsulated in the hierarchical porous carbon framework. Profiting from the synergistic effect of MO nanoparticles and highly conductive carbon framework, MO@C composites show excellent electrochemical properties. For example, the as -obtained Mo02@C composite exhibits a large discharge capacity (1513.7 mAh"g-1 at 0.1 A.g-I), good rate ability (443.5 mAh"g-1 at 5.0 A.g(-1)), and supernal long-lived stability (669.1 mAh.g(-1) after 1000 cycles at 1.0 kg (-1)). This work will inspire the design of novel anode materials for high-performance LI Bs.

Volume:16

Issue:5

Translation or Not:no