Fabrication and characterization of MXene/CuCr2O4 nanocomposite for diverse energy applications

This work comprises facile synthesis of MXene/CuCr2O4 nanocomposite using co-precipitation method for studying unique and significant energy storage properties by triggering world to design fabricate nano-electrode material with maximized specific capacitance, conductivity stability. Average crystallite size were found be 21.2 nm, 28.5 nm 8.7 CuCr2O4, Ti3C2Tx Ti3C2Tx/CuCr2O4 nanocomposites whereas sandwich like morphology an average grain 1.53 is evident from SEM micrographs. Further analysis Energy dispersive X-ray spectroscopy reveals elemental distribution complete aluminum removal showing MXene successful etching. Raman spectra confirms presence both D G band PL merged peak at 376 due structural distortions. From FTIR spectra, copper chromite within evident. UV–Vis confirmed decrease in bandgap value 2.06 eV 1.56 zeta potential −13.8 mV as compared −23 Nanocomposite based shows maximum capacitance 445.5 Fg-1 acidic electrolyte (0.1M H2SO4) comparable basic possessing stability over 500 cycles no further current. progress report acts a reference scientific inspiration overcome increasing demand next-generation systems.