Advances and recent trends in cobalt-based cocatalysts for solar-to-fuel conversion

Photocatalysis is considered to be one of the preeminent routes to realize sustainable O-2 and H-2 evolution, as well as CO2 reduction. Owing to various limitations, i.e. insufficient surface area, active sites, charge isolation, high overpotential, etc. associated with a single photoactive semiconductor, it is challenging to convert adsorbed H2O and CO2 to CO, H-2, CH4, CH3 OH, O-2, etc. by harvesting solar light. Among popular cocatalysts, earth-abundant cocatalysts exhibited great potential in the area of photocatalysis and are highly significant in accelerating reaction kinetics happening on the surface of semiconductors. Recently, other than the costly noble metals cocatalysts, earth-abundant cobalt based materials can be used as efficient cocatalysts, which effectively amended the photoactivity of photoactive semiconductors by forming stable junctions. Herein, in this all-inclusive review, the recent progress in cobalt based materials as cocatalysts applied in photocatalytic CO2 conversion and water splitting are concisely summarized. Special emphasis is placed on the surface modification principle, design strategies, and loading techniques for further amending the redox potentials of cobalt based cocatalysts for energy applications. Particularly, five types of amendment stratagems based on enhanced solar energy harvesting accelerated charge tunneling, exposed active centers, strengthened photostability, and lowered overpotential have been extensively highlighted and summarized. Typically, the anchoring of both reductive and oxidative (dual) cocatalysts have been explored, which depicted the synergistic behaviour of dual cocatalysts in amending surface properties for improving the photocatalytic CO2 reduction, H-2 and O-2 generation. Finally, this review addresses the emerging current perspectives as an insight into future research directions in this field to develop more efficient cocatalysts which effectively helped in the mitigation of energy and environmental issues. (C) 2021 Elsevier Ltd. All rights reserved.

Automated summary

Photocatalysis is crucial for sustainable O-2 and H-2 evolution, as well as CO2 reduction, but single photoactive semiconductors have limitations such as insufficient surface area and active sites. Earth-abundant cobalt based cocatalysts show great potential in accelerating reaction kinetics on semiconductors, particularly in photocatalysis.