Tailoring the Supercapacitance of Hydrothermally Synthesized Co₃O₄ Nanorods via Ni‐Doping and Fabrication of Symmetric and Asymmetric Supercapacitors

Abstract: Herein, cost‐effective and highly efficient Co3−XNiXO4 electrodes with various Ni concentrations (X = 0.1 to 0.5) are synthesized for supercapacitors. Ni‐doping effects are elucidated by various structural, morphological, and spectroscopic characterizations. The electrochemical studies show a ≈2‐fold increase in the specific capacitance for X = 0.5 when compared to its pristine counterpart. With varying concentrations of Ni, the specific capacitance of Co3O4, Co3−0.2Ni0.2O4, Co3−0.5Ni0.5O4 nanorods exhibits 47… Show more

“…At the electrode–electrolyte interface, the faradaic reaction has an impact on the creation of pseudocapacitance. − Metal oxides like RuO 2, MnO 2, Co 3 O 4, and MoS 2 , are common materials for pseudocapacitor electrodes. With superior energy density and specific capacitance, RuO 2 stands out among the metal oxide electrodes .…”

Nanoarchitechtonic Marvels: Pioneering One-Pot Synthesis of Bi₂WO₆ Nanostructures for Breakthrough in Symmetric Supercapacitor Innovation

“…At the electrode–electrolyte interface, the faradaic reaction has an impact on the creation of pseudocapacitance. − Metal oxides like RuO 2, MnO 2, Co 3 O 4, and MoS 2 , are common materials for pseudocapacitor electrodes. With superior energy density and specific capacitance, RuO 2 stands out among the metal oxide electrodes .…”

Nanoarchitechtonic Marvels: Pioneering One-Pot Synthesis of Bi₂WO₆ Nanostructures for Breakthrough in Symmetric Supercapacitor Innovation

A comprehensive review of metal oxides (RuO2, Co3O4, MnO2 and NiO) for supercapacitor applications and global market trends

Advancements in supercapacitor technology through the utilization of NiCo2X4 (X = O, S, Se) based nanocomposites as electrodes: A comprehensive review