期刊
JOURNAL OF ALLOYS AND COMPOUNDS
卷 772, 期 -, 页码 314-323出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jallcom.2018.09.044
关键词
Nanofibers; Titanium dioxide; Metal tin; Electrospinning; Sodium-ion batteries
资金
- National Natural Science Foundation of China [51672234]
- Research Foundation for Hunan Youth Outstanding People from Hunan Provincial Science and Technology Department [2015RS4030]
- Hunan 2011 Collaborative Innovation Center of Chemical Engineering AMP
- Technology with Environmental Benignity and Effective Resource Utilization
- Program for Innovative Research Cultivation Team in University of Ministry of Education of China [1337304]
- 111 Project [B12015]
The novel TiO2-Sn/C composite nanofibers have been successfully fabricated by a simple and facile electrospinning process. A small amount of metal tin interacts with TiO2 nanoparticles in a carbon matrix, which makes TiO2-Sn/C nanofibers have the stability of TiO2 and the high capacity of Sn. At the same time, the TiO2-Sn/C nanofibers reveal an improved diffusion coefficient of sodium ions due to a small amount of Sn nanoparticles incorporation. Compared with TiO2/C nanofibers, the TiO2-Sn/C nanofibers electrode shows significantly improved specific capacity, substantial cycling stability, and remarkable rate capability. It delivers high reversible capacity of 255mA h g(-1) at current densities of 0.05 A g(-1) in the range of 0.01-2.5 V vs. Na/Na+, and has specific capacities of 214 and 147mA h g(-1) at current densities of 0.5 and 4 A g(-1), respectively. Furthermore, TiO2-Sn/C nanofibers electrode demonstrates a discharge capacity 190.8 mA h g(-1) with 95.4% retention after 1000 cycles at 1 A g(-1) (the initial and second discharge capacity is 483 and 201mA h g(-1), respectively). Even up to 5 A g(-1), the discharge capacity of 134.3 mA h g(-1) with 83.9% retention is obtained after 1000 cycles. Outstanding electro-chemical performance makes TiO2-Sn/C nanofibers as a hopeful anode material for sodium-ion batteries and to be applied in the field of large-scale energy storage. (C) 2018 Elsevier B.V. All rights reserved.
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