Abstract
Mxenes, with unique two-dimensional structures, possess excellent electrical conductivity and low diffusion barriers, which are potential materials used in different metal ion batteries. Herein this paper focuses on synthesising MXenes applications through a literature review method. In relevant analysis, Mxenes can be Constructed in Ultrathin Layered with TiN in Heterostructure to Facilitate the Favorable Catalytic Capability of LithiumSulfur Batteries. For Potassium-Ion Batteries, MXene coated in Carbon to form a Three-Dimensional MXene/Iron Selenide Ball with CoreShell Structure shows a high reversible capacity with significant cycle stability. Ti3C2Tx MXene Electrolyte Additive prevents zinc ion batteries from Zinc Dendrite Deposition. Lastly, customizing the MXene nitrogen terminals for Na-Ion Batteries facilitates fast charging and stable cycling even when the temperature is low.
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