Surface Modification Effect on V-Doped Ti₃C₂T_x as Bifunctional Catalyst Electrodes for Symmetric Supercapacitor and the Hydrogen Evolution Reaction

Abstract: MXene-based composite materials have plenty of characteristics, such as high surface area, excellent metallic conductivity, rapid oxidation, and reduction activity. These materials have many advantages for use in modified electrodes for energy storage and conversion applications. However, their applicability in several types of industries has been significantly limited as a result of issues with surface aggregation and oxidation. In this study, we improved the electrochemical properties of the electrodes by mo… Show more

“…This feature aligns with the growing demand for energy storage systems that not only deliver high performance but also exhibit longevity and resilience [4,5]. The enduring ability of metal oxides, particularly in composite or spinel configurations, to retain charge significantly contributes to the advancement of supercapacitors capable of meeting the demands across various applications [6][7][8][9][10].…”

Basic and acidic electrolyte mediums impact on MnO₂-Mn₂O₃/Poly-2-methylaniline hexagonal nanocomposite pseudo-supercapacitor

“…This feature aligns with the growing demand for energy storage systems that not only deliver high performance but also exhibit longevity and resilience [4,5]. The enduring ability of metal oxides, particularly in composite or spinel configurations, to retain charge significantly contributes to the advancement of supercapacitors capable of meeting the demands across various applications [6][7][8][9][10].…”

Basic and acidic electrolyte mediums impact on MnO₂-Mn₂O₃/Poly-2-methylaniline hexagonal nanocomposite pseudo-supercapacitor

Ternary oxides of MnCuNi nanocomposite for enhanced supercapacitor applications