Carbon@titanium nitride dual shell nanospheres as multi-functional hosts for lithium sulfur batteries

材料科学 硫黄 壳体(结构) 对偶(语法数字) 氮化物 氮化碳 氮化钛 锂(药物) 碳化钛 碳纤维 纳米技术 复合数 复合材料 图层(电子) 冶金 化学 有机化学 光催化 催化作用 艺术 内分泌学 文学类 医学
作者
Yuankun Wang,Ruifang Zhang,Yuanchao Pang,Xu Chen,Jinxin Lang,Jingjing Xu,Chunhui Xiao,Huanglong Li,Kai Xi,Shujiang Ding
出处
期刊:Energy Storage Materials [Elsevier BV]
卷期号:16: 228-235 被引量:312
标识
DOI:10.1016/j.ensm.2018.05.019
摘要

Lithium-sulfur (Li-S) cells have received particular attention as a “post lithium ion” energy storage system. However, low sulfur utilization and poor redox kinetics are still key challenges to improving cycling efficiency. Herein, we develop a multi-functional polysulfide mediator based on carbon hollow nanospheres supported titanium nitride ([email protected]) dual-shell hollow nanospheres, in which the physical confinement, chemical adsorption, and catalysis for sulfur species conversion were successfully achieved simultaneously. As a result, [email protected] composites (approximately 70 wt% sulfur content) exhibit faster reaction kinetics and a higher polysulfide trap capability than that of [email protected]2-S composites when used as cathode materials in Li-S batteries. The [email protected] electrode delivers a reversible capacity of 453 mA h g−1, coupled with a high average Coulombic Efficiency (~ 99.0%). There is also limited capacitance decay (only 0.0033% per cycle), at a current density of 3 C, over 300 cycles. In particular, when the sulfur loading is increased to 4.2 mg cm−2, the [email protected] electrode can provide a high capacity of 820 mA h g−1 over 150 cycles at 0.2 C. DFT calculations reveal that the long-chain Li2S8 tend to break down into two shorter chain segments due to the strong interaction of TiN and LiPSs. Electrochemical analysis techniques indicate that TiN can effectively catalyze the reduction of polysulfide and the oxidation of Li2S during discharge and charge processes, respectively. Our work offers a new strategy to develop high-performance Li-S batteries based on multi-functional mediators.
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