Water electrolysis in association with electrocatalysts, has been indicated as a pivotal pathway to produce hydrogen and could tackle the issues related to the carbon footprint. Co 3 O 4 -based hybrid structural materials with high catalytic activity ...
Water electrolysis in association with electrocatalysts, has been indicated as a pivotal pathway to produce hydrogen and could tackle the issues related to the carbon footprint. Co 3 O 4 -based hybrid structural materials with high catalytic activity and rich defects are evaluated as effi cacious advocates of water splitting. This account commences by explicating the mechanistic underpinnings of the hydrogen evolution reaction (HER). Next, a range of hybrid structures of Co 3 O 4 with metals, metal oxides, metal sulfi des, metal phosphides, metal selenides, layered double hydroxides, and carbon materials are introduced as potential catalysts for HER. Finally, burdensome tasks and reliable guidelines for the progression of Co 3 O 4 -based architectures for the enhancement of HER are discussed.