Silver based photocatalysts in emerging applications

The infinite availability of solar energy grants the potential of fulfilling the energy demands and environmental sustainability requirements with more feasible and reliant renewable energy forms through photocatalysis. In the past decade, the intensive plasmonic effect, suitable work function, superior electrical conductivity and physiochemical properties have made Ag-based photocatalysts attractive components for emerging applications. The local surface plasmon resonance effect (LSPR) provides extra hot-carriers to participate in the photocatalytic process, and Schottky/Ohmic contacts would facilitate charge transfer. Here, recent studies focused on Ag-based photocatalysts for emerging applications are reviewed. Notably, the mechanisms of LSPR, the Schottky barrier and ohmic contacts are introduced together with urgent issues in CO2 reduction, antibacterial application, H-2 generation, and environmental hazard removal. Additionally, some perspectives and directions on more comprehensive designs on material system, band alignment and functionalization are given to further the exploration in this research area.

Automated summary

This article reviews recent studies on Ag-based photocatalysts for emerging applications. The mechanisms of local surface plasmon resonance, Schottky barrier, and ohmic contacts are introduced, and urgent issues in CO2 reduction, antibacterial application, H-2 generation, and environmental hazard removal are discussed. Additionally, perspectives and directions on more comprehensive designs on material system, band alignment, and functionalization are given to further explore this research area.