Multi-heterostructured MXene/NiS₂/Co₃S₄ with S-Vacancies to Promote Polysulfide Conversion in Lithium–Sulfur Batteries

Abstract: The severe shuttle effect of polysulfides (LiPSs) and the slow liquid−solid phase conversion are the main obstacles hindering the practical application of lithium−sulfur (Li−S) batteries. Separator modification with a high-activity catalyst can boost LiPSs conversion and suppress their shuttle effect. In this work, multi-heterostructured MXene/NiS 2 /Co 3 S 4 with rich S-vacancies was constructed facilely with a hydrothermal and high-temperature annealing strategy for separator modification. The MXene sheet no… Show more

“…Wang et al utilized electrostatic adsorption to introduce NiCo–MOF onto the surface of MXene flakes, followed by the hydrothermal preparation of multi–heterostructured MXene/NiS 2 /Co 3 S 4 catalysts, which contained S vacancies and served as Li–S battery separators. High–resolution transmission electron microscopy (HRTEM) images revealed distinct heterostructured interfaces between the MXene (008) planes, the NiS 2 (200) planes, and the Co 3 S 4 (400) planes, confirming the multi–heterostructure of MXene NiS 2 /Co 3 S 4 .…”

Advanced Separator Materials for Enhanced Electrochemical Performance of Lithium–Sulfur Batteries: Progress and Prospects

“…Wang et al utilized electrostatic adsorption to introduce NiCo–MOF onto the surface of MXene flakes, followed by the hydrothermal preparation of multi–heterostructured MXene/NiS 2 /Co 3 S 4 catalysts, which contained S vacancies and served as Li–S battery separators. High–resolution transmission electron microscopy (HRTEM) images revealed distinct heterostructured interfaces between the MXene (008) planes, the NiS 2 (200) planes, and the Co 3 S 4 (400) planes, confirming the multi–heterostructure of MXene NiS 2 /Co 3 S 4 .…”

Advanced Separator Materials for Enhanced Electrochemical Performance of Lithium–Sulfur Batteries: Progress and Prospects

Synergistic improvement of the sulfur redox reaction by MOF-driven dual-defect polyhedral Mn-doped Co1-xS embedded in an N-doped carbon composite host for practical lithium-sulfur batteries

Beyond graphene: exploring the potential of MXene anodes for enhanced lithium–sulfur battery performance