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Lithium-Ion-Engineered Interlayers of V<sub>2</sub>C MXene as Advanced Host for Flexible Sulfur Cathode with Enhanced Rate Performance

Zhuo Chen, Xuebiao Yang, Xue Qiao, Na Zhang, Chunfang Zhang, Zhiling Ma, Hongqiang Wang

2020The Journal of Physical Chemistry Letters72 citationsDOI

Abstract

A flexible free-standing S@lithium-ion-intercalated V2C MXene/rGO-CNT (S@V2C–Li/C) electrode was rationally prepared to address the neglected issue of Li-ion transport for high-rate lithium–sulfur batteries. In this unique nanoarchitecture, rGO and CNTs serve as a flexible skeleton with high conductivity, whereas V2C–Li MXene plays a vital role in both the chemical absorption of polysulfides and the enhanced transport of lithium ions due to its high polarity and enlarged interlayer distance. Benefiting from the synergistic effect of strong chemical absorption capability and fast lithium-ion migration and exchange, the as-prepared S@V2C–Li/C electrode demonstrates long-term cycling stability with small capacity decay rates of 0.053 and 0.051% per cycle over 500 cycles at 1 and 2 C, respectively.

Topics & Concepts

Lithium (medication)IonElectrodeCathodeMaterials scienceAbsorption (acoustics)ConductivitySulfurChemical engineeringNanotechnologyChemistryComposite materialPhysical chemistryOrganic chemistryMedicineEndocrinologyMetallurgyEngineeringMXene and MAX Phase MaterialsAdvanced Battery Materials and TechnologiesAdvancements in Battery Materials
Lithium-Ion-Engineered Interlayers of V<sub>2</sub>C MXene as Advanced Host for Flexible Sulfur Cathode with Enhanced Rate Performance | Litcius