Intrinsic catalytic Sites-Rich Co-doped SnO2 nanoparticles enabling enhanced conversion and capture of polysulfides

多硫化物 催化作用 电解质 化学工程 材料科学 硫黄 纳米颗粒 兴奋剂 电池(电) 氧化物 氧化钴 吸附 无机化学 化学 纳米技术 电极 光电子学 物理化学 有机化学 功率(物理) 冶金 工程类 物理 量子力学
作者
Yuan Yao,Caiyun Chang,Rongrong Li,Di Guo,Zhixiao Liu,Xiong Pu,Junyi Zhai
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:431: 134033-134033 被引量:34
标识
DOI:10.1016/j.cej.2021.134033
摘要

• Co atoms doping of SnO 2 enhances the intrinsic catalytic sites and chemosorption for polysulfides. • Multifunctional Co-SnO 2 @CNT host delivers excellent rate capability and superior long-term cycle stability. • Excellent performances are obtained at practical lean electrolyte condition (E/S ∼ 5 uL/mg). The serious shuttle effect and sluggish reaction kinetics hinder the commercialization implementation of lithium-sulfur battery, despite its ultra-high theoretical energy density and low cost outrivaling the lithium-ion battery. Regulating the electronic structure of metal oxides at the atomic level could be an effective strategy to improve the intrinsic catalytic activity for polysulfides conversion. Herein, we proposed cobalt-doped stannic oxide which was uniformly grown on carbon nanotubes (Co-SnO 2 @CNT) as a multifunctional sulfur host. Evidenced by experimental characterizations and theoretical simulations, it is found that due to the appropriate doping amount, this host is endowed with abundant polar sites that exhibit robust polysulfides adsorption and confinement, fast Li-ion, and electron transfer, and rapid conversion reaction kinetics of sulfur species. As a result, the Co-SnO 2 @CNT host exhibits high sulfur loading (∼79.3 wt%), excellent rate capability (808 mAh g −1 at 2C), and superior long-term cycle stability (0.042% per cycle degeneration for 600 cycles at 1C). Excellent performances are also obtained at practical lean electrolyte conditions (E/S ratio ∼ 5 uL mg −1 ). This work verifies the feasibility of cobalt-doped SnO 2 as catalyst and adsorbent for polysulfide species and reveals the internal mechanism of transition metal doped metal oxides at an atomic scale. In addition, a strategy was proposed that could overcome the intrinsic drawbacks of metal oxides and open up more feasible ways for high-performance lithium-sulfur batteries.
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