Synergy of nitrogen vacancies and nanodiamond decoration in g-C3N4 for boosting CO2 photoreduction

•The decoration of g-C3N4 were achieved by in-situ thermal polymerization method.•The introduced nitrogen vacancies enhanced the conduction band position of g-C3N4.•The in-situ decoration of ND expanded the light absorption range.•ND/g-C3N4 (NH) exhibited enhanced CO2 reduction activity and selectivity.