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Effects of carbon on electrochemical performance of red phosphorus (P) and carbon composite as anode for sodium ion batteries

journal contribution
posted on 2024-11-17, 13:39 authored by Zhi Jia Zhang, Wei Jie Li, Shu Lei Chou, Chao Han, Hua Kun Liu, Shi Xue Dou
Red phosphorus/graphite (P/G) and red phosphorus/carbon nanotube (P/CNT) composites were prepared by ball milling red phosphorus with CNTs and graphite, respectively. The electrochemical results show superior electrochemical performances of the P/G and P/CNT composites compared with that of the reference sample milled with Super-P carbon. After 70 cycles, the P/G and P/CNT composites remained 771.6 and 431.7 mA h g , with 68 % and 50 % capacity retention, respectively. With increasing the milling time (20 h), CNTs were cut into short pieces and then broken into carbon rings and sheets which were well mixed with red phosphorus. The morphology of the P/CNT composite can buffer the large volume changes from alloying and de-alloying during cycling, resulting in the enhanced cycling stability. −1

Funding

Australian Research Council (51701142)

History

Journal title

Journal of Materials Science and Technology

Volume

68

Pagination

140-146

Language

English

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