阳极
硫酸
材料科学
吸附
碳纤维
硼
电化学
化学工程
蚀刻(微加工)
杂质
兴奋剂
硫黄
纳米技术
无机化学
电极
作者
Juan Huang,Shengde Dong,Zhan Chen,Yongming Zhang,Yue Leng,Yin Xiang,Yanxia Sun,Qi Xu,Luxiang Ma,Chunxi Hai,Yuan Zhou
标识
DOI:10.1021/acsaem.5c01360
摘要
Since 2012, hard carbon has received significant attention as one of the most promising anode materials for sodium-ion batteries (SIBs). However, their industrial application is limited by low capacity and poor rate performance. This study combines experimental and theoretical investigations to explore the effects of boron doping on bamboo-based hard carbon anode materials after sulfuric acid treatment. The results demonstrate that the synergistic modification of acid treatment and boron doping effectively improves the electrochemical properties of hard carbon. Acid etching removes most of the impurities favoring the increase in active sites but to some extent decreases the interlayer distance, whereas boron doping creates defects in the hard carbon material results, which in turn will add additional ionically active adsorption sites. It exhibits an excellent charging specific capacity of 308.87 mAh g –1, enhanced rate performance, and superior capacity retention. In the long cycle test at 0.5C, B and S dual-doped hard carbon (BHC) maintains 77% capacity retention after 500 cycles, outperforming untreated materials. Doped samples consistently show discharge specific capacities higher than those of undoped ones in rate performance tests. These findings suggest that acid-treated and boron-doped hard carbon is a potential candidate for high-performance anode materials in SIBs.
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