Pivotal effect of oxygen vacancies on S-scheme BiVO4/g-C3N4: Novel dual activation mechanistic studies in photocatalytic selective ethylbenzene oxidation under LED irradiation | Synapse
March 3, 2026
Pivotal effect of oxygen vacancies on S-scheme BiVO4/g-C3N4: Novel dual activation mechanistic studies in photocatalytic selective ethylbenzene oxidation under LED irradiation
Key Points
Ethylbenzene oxidation was significantly enhanced due to oxygen vacancies in the photocatalytic process.
The study shows an increase in reaction efficiency, achieving up to 85% conversion at optimized conditions.
Observational analysis using dual activation and S-scheme photocatalyst under LED light revealed new mechanistic insights.
The findings suggest that utilizing oxygen vacancies may strengthen photocatalytic systems, promoting better reaction outcomes.