Investigation on Y2NiMnO6 nanostructures for energy storage applications

“…These characteristics make them appealing choices for enhancing device efficiency and functionality. In a number of previous investigations, structure-correlated electronic properties, competing magnetic interactions, emergence of GP, etc, were reported in Yttrium (Y)-based double perovskites [23][24][25]. Notably, Y-based parent single perovskites YNiO 3 and YCrO 3 that exhibited attractive magnetic properties for potential applications in spintronic, optoelectronic and energy storage devices motivated us to synthesize their double perovskite Y 2 NiCrO 6 (YNCO) [26,27].…”

“…Previously, the electrochemical properties of Y-based double perovskites such as Y 2 NiFeO 6 , Y 2 NiMnO 6 , Y 2 FeCoO 6 , etc were reported [36,47,48]. In a few separate investigations, both magnetic and electrochemical properties of Y-based double perovskites Y 2 NiMnO 6 and Y 2 CoNiO 6 were investigated [25,49]. The possibility of forming a disordered perovskite structure, the presence of oxygen vacancies, and the hybrid-type charge storage capacity of Y-based double perovskites also motivated us to investigate the electrochemical behavior of this new member of Y-based double perovskite Y 2 NiCrO 6 along with magnetic properties.…”

B-site disorder driven Griffiths-like phase and electrochemical behavior in Y₂NiCrO₆ double perovskite

“…These characteristics make them appealing choices for enhancing device efficiency and functionality. In a number of previous investigations, structure-correlated electronic properties, competing magnetic interactions, emergence of GP, etc, were reported in Yttrium (Y)-based double perovskites [23][24][25]. Notably, Y-based parent single perovskites YNiO 3 and YCrO 3 that exhibited attractive magnetic properties for potential applications in spintronic, optoelectronic and energy storage devices motivated us to synthesize their double perovskite Y 2 NiCrO 6 (YNCO) [26,27].…”

“…Previously, the electrochemical properties of Y-based double perovskites such as Y 2 NiFeO 6 , Y 2 NiMnO 6 , Y 2 FeCoO 6 , etc were reported [36,47,48]. In a few separate investigations, both magnetic and electrochemical properties of Y-based double perovskites Y 2 NiMnO 6 and Y 2 CoNiO 6 were investigated [25,49]. The possibility of forming a disordered perovskite structure, the presence of oxygen vacancies, and the hybrid-type charge storage capacity of Y-based double perovskites also motivated us to investigate the electrochemical behavior of this new member of Y-based double perovskite Y 2 NiCrO 6 along with magnetic properties.…”

B-site disorder driven Griffiths-like phase and electrochemical behavior in Y₂NiCrO₆ double perovskite

“…There are many reports in the literature regarding the electrochemical behavior of perovskites as an electrode material for supercapacitors [23,24]. The perovskite compounds with transition metal oxides like Ni and Mn at B site can provide high charge storage due to fast redox reactions [25][26][27][28][29][30][31].…”

Low temperature synthesis of BiNi_0.6Mn_0.4O₃ nanostructures via citric acid and ethylene glycol assisted hydrothermal process for energy storage applications

Dielectric, electrochemical and magnetic properties of the hydrothermally synthesized double perovskite La2NiMnO6 for energy storage applications