期刊
RARE METALS
卷 40, 期 11, 页码 3205-3214出版社
NONFERROUS METALS SOC CHINA
DOI: 10.1007/s12598-020-01681-1
关键词
Ionic liquid; Ultrathin N-doped carbon; T-Nb2O5; Lithium-ion battery; Full cell
资金
- National Natural Science Foundation of China [21501101]
- Natural Science Foundation of Henan Province [182300410226]
- Technological Project of Henan Province [172102210426, 172102210423, 182102310068]
- Education Department Project of Henan Province [16A150038]
An ultrathin N-doped carbon-coating layer was constructed on porous T-Nb2O5 microspheres, which significantly enhanced the rate capability and cycle life of the material, while ensuring fast Li+ diffusion dynamics and electrolyte penetration. The synthesized material also performed well in a full cell, demonstrating potential applications in lithium-ion batteries.
Orthorhombic-phase Nb2O5 (T-Nb2O5) has been widely investigated as an intercalation anode material for Li-ion batteries due to the larger interplanar lattice spacing and high safety. However, its applications are limited by the intrinsic low electric conductivity. Herein, an ultrathin N-doped carbon-coating layer was constructed on porous T-Nb2O5 microspheres uniformly via a convenient thermal treatment method with ionic liquid as a carbon precursor. The synthesized T-Nb2O5@N-C exhibits significantly enhanced rate capability (155.5 mAh.g(-1) at 20C) than initial T-Nb2O5 (110.2 mAh.g(-1) at 20C). Besides, T-Nb2O5@N-C shows ultralong cycle life, with only a 0.02% decrease in the capacity per cycle at a high current density of 10C. The corresponding electrochemical tests show that the preferable rate capability of T-Nb2O5@N-C electrode is attributed to the increased electronic conductivity and pseudocapacitance contribution induced by ultrathin surface N-doped carbon layer. On the other hand, the mesoporous structure of T-Nb2O5@N-C ensures fast Li+ diffusion dynamics and electrolyte penetration. Furthermore, T-Nb2O5@N-C also performs well in a LiNi0.5Mn0.3Co0.2O4 parallel to T-Nb2O5@N-C full cell. This work provides a facile method to construct integrated anode materials for potential applications in lithium-ion batteries.
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