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Hybrid Ascharite/Reduced Graphene Oxide with Polysulfide Adsorption Host for Advanced Lithium–Sulfur Batteries

Xiaojun Zhao, Yubo Dang, Hongzhou Ma, Panqing Bai, Wangzi Li, Zhi‐Hong Liu

2024Inorganic Chemistry14 citationsDOI

Abstract

Balancing the adsorption of lithium-polysulfide intermediates on polar host material surfaces and the effect of their electronic conductivity in the subsequent oxidation and reduction kinetics of electrochemical reactions is necessary and remains a challenge. Herein, we have evaluated the role of polarity and conductivity in preparing a series of ascharite/reduced graphene oxide (RGO) aerogels by dispersing strong polar ascharite nanowires of varying mass into the conductive RGO matrix. When severed as Li–S battery cathodes, the optimized S@ascharite/RGO cathode with a sulfur content of 73.8 wt % demonstrates excellent rate performance and cycle stability accompanied by a high-capacity retention for 500 cycles at 1.0 C. Interesting advantages including the enhanced adsorption ability by the formation of the Mg–S and Li bonds, the continuous and quick electron/ion transportations assembled conductive RGO framework, and the effective deposition of Li 2 S are combined in the ascharite/RGO aerogel hosts. The electrochemical results further demonstrate that the polarity of ascharite components for the S cathode plays a dominant role in the improvement of electrochemical performance, but the absence of a conductive substrate leads to serious capacity attenuation, especially the rate performance. The balanced design protocol provides a universal method for the synthesis of multiple S hosts for high-performance LSBs.

Topics & Concepts

GraphenePolysulfideChemistryOxideElectrochemistryAdsorptionCathodeChemical engineeringLithium (medication)ConductivityVanadium oxideAerogelNanotechnologyInorganic chemistryElectrodeMaterials scienceOrganic chemistryEngineeringEndocrinologyMedicinePhysical chemistryElectrolyteAdvanced Battery Materials and TechnologiesAdvancements in Battery MaterialsAdvanced battery technologies research