Hubei, 432000
China
Hubei Engineering University
MXene, surface chemistry, lithium-ion storage, energy storage device, lithium-ion capacitor
Lithium-ion batteries, Copper Foils, Ultra-thin, Heterostructures, geometry necessary dislocations
lithium-ion batteries;copper foils; ultra-thin;heterostructures; geometry necessary dislocations
Nitrogen doping, MXene, energy storage, DFT calculations, supercapacitors
Li3VO4, MXene, Heterostructure, DFT calculations, lithium storage
Li3VO4, MXene, Heterostructure, DFT calculations, Lithium storage
MXenes, DFT calculation, electrochemical performance, lithium-ion capacitors
MXene, metal-ion capacitors, 2D material, surface terminations, lithium-ion storage
MXene, etching agent, DFT calculations, ammonium-ion capacitor
MXene, molten-salt etching, surface chemistry, lithium-ion capacitor, energy storage device
MXene, electrolyte, supercapacitors, DFT calculations, Energy storage
Zn/F co-doping, P2-type Na0.67Ni0.33Mn0.67O2, Oxygen redox, High voltage, Sodium-ion batteries
interfacial engineering, gradient materials, coupled hydrogen production, biomass electrooxidation, value-added chemicals
MXene, Surface chemistry, Electronic Structure, Lithium-ion capacitors
Keyword: Succinonitrile, Gel polymer electrolytes, Synergistic coordination, Ionic transport, Lithium Metal Batteries