Liang Jiaojiao, Yuan Chaochun, Li Huanhuan, Fan Kai, Wei Zengxi, Sun Hanqi, Ma Jianmin
School of Physics and Electronics, Hunan University, Changsha, 410082, People's Republic of China.
Automotive Engineering Research Institute, Jiangsu University, Zhenjiang, 212013, People's Republic of China.
Nanomicro Lett. 2018;10(2):21. doi: 10.1007/s40820-017-0172-2. Epub 2017 Dec 8.
It is urgent to solve the problems of the dramatic volume expansion and pulverization of SnO anodes during cycling process in battery systems. To address this issue, we design a hybrid structure of N-doped carbon fibers@SnO nanoflowers (NC@SnO) to overcome it in this work. The hybrid NC@SnO is synthesized through the hydrothermal growth of SnO nanoflowers on the surface of N-doped carbon fibers obtained by electrospinning. The NC is introduced not only to provide a support framework in guiding the growth of the SnO nanoflowers and prevent the flower-like structures from agglomeration, but also serve as a conductive network to accelerate electronic transmission along one-dimensional structure effectively. When the hybrid NC@SnO was served as anode, it exhibits a high discharge capacity of 750 mAh g at 1 A g after 100 cycles in Li-ion battery and 270 mAh g at 100 mA g for 100 cycles in Na-ion battery, respectively.
解决电池系统中SnO阳极在循环过程中急剧的体积膨胀和粉化问题迫在眉睫。为了解决这个问题,在这项工作中我们设计了一种氮掺杂碳纤维@SnO纳米花(NC@SnO)的混合结构来克服它。这种混合的NC@SnO是通过在通过静电纺丝获得的氮掺杂碳纤维表面水热生长SnO纳米花而合成的。引入NC不仅是为了提供一个支撑框架来引导SnO纳米花的生长并防止花状结构团聚,而且还作为一个导电网络来有效地加速沿一维结构的电子传输。当这种混合的NC@SnO用作阳极时,在锂离子电池中,100次循环后在1 A g下它表现出750 mAh g的高放电容量,在钠离子电池中,在100 mA g下100次循环后它表现出270 mAh g的放电容量。
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