In-situ growth of hierarchical Ni–Co LDH/CoMoO4 nanosheets arrays on Ni foam for pseudocapacitors with robust cycle stability

“…In addition, ternary metal oxides have more active sites and faster redox reactions than single metal oxides, which become one of the materials to replace RuO 2 [ 53 , 172 , 173 , 174 ]. As the hotspots of mixed transition metal oxides, the transition metal molybdates have attracted much attention because of their advantages including natural abundance, high theoretical specific capacitance, and low costs [ 175 ]. The performance of supercapacitors depends largely on the morphology and structure of their electrode materials.…”

Transition Metal Oxide Electrode Materials for Supercapacitors: A Review of Recent Developments

“…In addition, ternary metal oxides have more active sites and faster redox reactions than single metal oxides, which become one of the materials to replace RuO 2 [ 53 , 172 , 173 , 174 ]. As the hotspots of mixed transition metal oxides, the transition metal molybdates have attracted much attention because of their advantages including natural abundance, high theoretical specific capacitance, and low costs [ 175 ]. The performance of supercapacitors depends largely on the morphology and structure of their electrode materials.…”

Transition Metal Oxide Electrode Materials for Supercapacitors: A Review of Recent Developments

“…However, the specific capacitance of CoMoO 4 in the available literature is not satisfactory. 7 NiMoO 4 has a high electrochemical activity, but its rate capability is poor. 8 Researchers often combine the two to form a special structure.…”

Preparation of porous CoMoO₄+ NiMoO₄nanosheets with high capacitance by a sol–gel method and freezing method

“…[12][13][14][15] Among them, NiMoO 4 is preferred by scientists because of its environmental harmlessness, low cost, and high theoretical capacitance advantages. 13,16,17 At the same time, substantial redox activity from the Ni atom and conductivity from the Mo atom make NiMoO 4 exhibit excellent electrochemical performance, showing that it is superior to ferrite. 16,17 A new glucose sensor consisting of Ni-Ni 3 S 2 /NiMoO 4 core-shell nanowires reported by Kannan et al can be taken as an example of an electrochemical sensor.…”

A new sensing platform based on a ternary nanocomposite of graphitic carbon nitride–silver sulfide–nickel molybdate for quercetin determination