碳纤维
催化作用
电化学
无定形碳
化学工程
硫黄
材料科学
化学
电极
纳米技术
无定形固体
有机化学
复合数
物理化学
复合材料
工程类
作者
Jiawen Zhu,Jiaqi Cao,Guolei Cai,Jing Zhang,Wei Zhang,Shuai Xie,Jinxi Wang,Hongchang Jin,Junjie Xu,Xianghua Kong,Song Jin,Zhenyu Li,Hengxing Ji
标识
DOI:10.1002/anie.202214351
摘要
Appling an electrochemical catalyst is an efficient strategy for inhibiting the shuttle effect and enhancing the S utilization of Li-S batteries. Carbon-based materials are the most common conductive agents and catalyst supports used in Li-S batteries, but the correlation between the diversity of hybridizations and sulfur reduction reaction (SRR) catalytic activity remains unclear. Here, by establishing two forms of carbon models, i.e., graphitic carbon (GC) and amorphous carbon (AC), we observe that the nitrogen atom doped in the GC possesses a higher local charge density and a lower Gibbs free energy towards the formation of polysulfides than in the AC. And the GC-based electrode consistently inherits considerably enhanced SRR kinetics and superior cycling stability and rate capability in Li-S batteries. Therefore, the function of carbon in Li-S batteries is not only limited as conductive support but also plays an unignorable contribution to the electrocatalytic activities of SRR.
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