BiOCl has been used in the photoreduction of CO2,but exhibits limited photocatalytic activity.In this study,Bi was in situ reduced and deposited on the surface of (001)-dominated BiOCl nanosheets by NaBH4 to form Bi/BiOCl nanosheets enriched with oxygen vacancies.The as-prepared Bi/BiOCl nanosheets having low thickness (ca.10 nm) showed much higher concentration of oxygen vacancies compared to Bi/BiOCl nanoplates having high thickness (ca.100 nm).Subsequently,the photocatalytic activity of the Bi/BiOCl nanosheets enriched with oxygen vacancies for CO2 reduction was dramatically enhanced and much higher than that of BiOCl nanoplates,nanosheets,and Bi/BiOCl nanoplates.It showed that the improved photocatalytic activity in the reduction of CO2 can be attributed to the enhanced separation efficiency of photogenerated electron-hole pairs of the oxygen vacancies on BiOCl nanosheets and Bi metals.This work demonstrated that the in situ reduction of non-noble metals on the surface of BiOCl nanosheets that are enriched with oxygen vacancies is favorable for increasing photocatalytic CO2 reduction.