Zinc-ion hybrid capacitors (ZHCs) combine the merits of zinc ion batteries and supercapacitors, have attracted increasing attention due to cost-effectiveness, improved safety, high energy/power densities, long-term electrochemical stability, and ease of assembling. As one type of promising electrode material for ZHCs, MXene-based materials have drawn wide research because of their adjustable layer spacing, excellent physical and chemical properties, high conductivity and good electrochemical stability. In recent years, massive research on improving the energy density and cycle stability of ZHCs, and the modification and optimization of MXene have provided a new way to enhance the performance of ZHCs. In this paper, we briefly introduce the basic information about MXene, review several preparation methods of MXene, and emphasis on the modification and utilization of MXene in the cathodes, anodes and electrolyte of ZHCs. In addition, the utilization of MXene in ZHCs separators is also displayed. Eventually, the promising future and challenges of MXene-based materials for ZHCs applications are outlined.
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Open Access
Review Article
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Open Access
Review Article
Issue
Supercapacitors (SCs) are considered promising energy storge systems because of their outstanding power density, fast charge and discharge rate and long-term cycling stability. The exploitation of cheap and efficient electrode materials is the key to improve the performance of supercapacitors. As the battery-type materials, transition metal phosphides (TMPs) possess high theoretical specific capacity, good electrical conductivity and superior structural stability, which have been extensively studied to be electrode materials for supercapacitors. In this review, we summarize the up-to-date progress on TMPs materials from diversified synthetic methods, diverse nanostructures and several prominent TMPs and their composites in application of supercapacitors. In the end, we also propose the remaining challenges toward the rational discovery and synthesis of high-performance TMP electrodes materials for energy storage.
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