：Cobalt Sulfide Confined in N-Doped Porous Branched Carbon Nanotubes for Lithium-Ion Batteries论文

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作者（2019）在《Cobalt Sulfide Confined in N-Doped Porous Branched Carbon Nanotubes for Lithium-Ion Batteries》一文中研究指出：Lithium-ion batteries（LIBs） are considered new generation of large-scale energy-storage devices.However,LIBs suffer from a lack of desirable anode materials with excellent specific capacity and cycling stability.In this work,we design a novel hierarchical structure constructed by encapsulating cobalt sulfide nanowires within nitrogen-doped porous branched carbon nanotubes（NBNTs）for LIBs.The unique hierarchical Co9S8@NBNT electrode displayed a reversible specific capacity of 1310 mAhg-1 at a current density of 0.1 Ag-1,and was able to maintain a stable reversible discharge capacity of 1109 mAhg-1 at a current density of 0.5 Ag-1 with coulombic efficiency reaching almost 100% for 200 cycles.The excellent rate and cycling capabilities can be ascribed to the hierarchical porosity of the one-dimensional Co9S8@NBNT internetworks,the incorporation of nitrogen doping,and the carbon nanotube confinement of the active cobalt sulfide nanowires offering a proximate electron pathway for the isolated nanoparticles and shielding of the cobalt sulfide nanowires from pulverization over long cycling periods.

Abstract

Lithium-ion batteries（LIBs） are considered new generation of large-scale energy-storage devices.However,LIBs suffer from a lack of desirable anode materials with excellent specific capacity and cycling stability.In this work,we design a novel hierarchical structure constructed by encapsulating cobalt sulfide nanowires within nitrogen-doped porous branched carbon nanotubes（NBNTs）for LIBs.The unique hierarchical Co9S8@NBNT electrode displayed a reversible specific capacity of 1310 mAhg-1 at a current density of 0.1 Ag-1,and was able to maintain a stable reversible discharge capacity of 1109 mAhg-1 at a current density of 0.5 Ag-1 with coulombic efficiency reaching almost 100% for 200 cycles.The excellent rate and cycling capabilities can be ascribed to the hierarchical porosity of the one-dimensional Co9S8@NBNT internetworks,the incorporation of nitrogen doping,and the carbon nanotube confinement of the active cobalt sulfide nanowires offering a proximate electron pathway for the isolated nanoparticles and shielding of the cobalt sulfide nanowires from pulverization over long cycling periods.

论文参考文献

[1].When hierarchical structure meets the solar cell[J]. Nailiang Yang. Science Bulletin.2017(04)

[2].High performance hybrid supercapacitor based on hierarchical MoS2/Ni3S2 metal chalcogenide[J]. Ying Liu,Depeng Zhao,Hengqi Liu,Ahmad Umar,Xiang Wu. Chinese Chemical Letters.2019(05)

[3].Highly cross-linked Si-Cu alloy nanotubes and hierarchical nanowire branches for high performance Si-loaded lithium-ion batteries[J]. Science Foundation in China.2016(03)

[4].Static and dynamic design based on hierarchical optimization for materials and structure of porous metals[J]. LIU YuanDong,YIN YiHui & GUO ZhongZe Institute of Structural Mechanics,CAEP,P.O.Box 919-401,Mianyang 621900,China. Science China(Technological Sciences).2012(10)

[5].Application of the fault diagnosis strategy based on hierarchical information fusion in motors fault diagnosis[J]. XIA Li~ 1,2 and FEI Qi~ 1 1.Department of Control Science and Engineering, Huazhong University of Science and Technology, Wuhan 430074, China 2.Department of Electrical Engineering, Naval University of Engineering, Wuhan 430033, China. Journal of Marine Science and Application.2006(01)

[6].Metal–Organic Framework-Assisted Synthesis of Compact Fe2O3 Nanotubes in Co3O4 Host with Enhanced Lithium Storage Properties[J]. Song Lin Zhang,Bu Yuan Guan,Hao Bin Wu,Xiong Wen David Lou. Nano-Micro Letters.2018(03)

[7].Fabrication and application of hierarchical mesoporous MoO2/Mo2C/C microspheres[J]. Xiaoyan Li,Qinggui Xiao,Hongling Zhang,Hongbin Xu,Yi Zhang. Journal of Energy Chemistry.2018(03)

[8].A novel approach for synthesis of hierarchical mesoporous Nd2O3nanomaterials[J]. Le Huu Trinh,Dinh Quang Khieu,Hoang Thai Long,Tran Thai Hoa,Duong Tuan Quang,Nguyen Duc Cuong. Journal of Rare Earths.2017(07)

[9].From Jackfruit Rags to Hierarchical Porous N-Doped Carbon: A High-Performance Anode Material for Sodium-Ion Batteries[J]. Baisheng Zhao,Yichun Ding,Zhenhai Wen. Transactions of Tianjin University.2019(05)

[10].Controllable Hydrothermal Synthesis and Properties of ZnO Hierarchical Micro/Nanostructures[J]. Weifei Li,Yangang Sun,Jingli Xu. Nano-Micro Letters.2012(02)

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：Cobalt Sulfide Confined in N-Doped Porous Branched Carbon Nanotubes for Lithium-Ion Batteries论文

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Abstract

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