Hydrothermal synthesis of nickel vanadate (Ni2V2O7) microspheres as a catalyst for high-performance supercapacitor and water-splitting applications
Mayuri G. Magadum(Shivaji University), A.V. Moholkar(Shivaji University), Tushar T. Bhosale(Shivaji University), Nishigandha B. Chougale(Shivaji University), Pratap K. Pawar(Shivaji University), Tukaram D. Dongale(Shivaji University), Umesh V. Shembade(D.Y. Patil University)
Cited by 27
Related Papers
Hydrothermal synthesis of mesoporous NiMnO3 nanostructures for supercapacitor application: Effect of electrolyte
|Journal of Energy Storage|2021|67
Acid substitutions for WO3 nanostructures synthesis by the hydrothermal route and its effect on physio-chemical and electrochemical properties for supercapacitors
|Journal of Energy Storage|2023|60
Hydrothermal synthesis of graphene oxide interspersed in non-uniform tungsten oxide nanorod and its performance towards highly efficient hybrid supercapacitor
|Ceramics International|2023|57
Investigating the effect of electrolyte and its concentration dependence on WO3 nanosheet as an efficient electrode for supercapacitors: Effect of Redox Additive
|Journal of Physics and Chemistry of Solids|2023|52