摘要
The photocatalytic reduction of CO_(2) is a promising strategy to generate chemical fuels.However,this reaction usually suf-fers from low photoactivity because of insuffi cient light absorption and rapid charge recombination.Defect engineering has become an eff ective approach to improve the photocatalytic activity.Herein,ultra-thin(~4.1 nm)carbon-doped Bi_(2)WO_(6) nanosheets were prepared via hydrothermal treatment followed by calcination.The ultra-thin nanosheet structure of the cata-lyst not only provides more active sites but also shortens the diff usion distance of charge carriers,thereby suppressing charge recombination.Moreover,carbon doping could successfully extend the light absorption range of the catalyst and remarkably promote charge separation,thus inhibiting recombination.As a result,the as-prepared Bi_(2)WO_(6) photocatalyst with ultra-thin nanosheet structure and carbon doping exhibits enhanced photocatalytic CO_(2) reduction performance,which is twice that of pristine ultra-thin Bi_(2)WO_(6) nanosheet.This study highlights the importance of defect engineering in photocatalytic energy conversion and provides new insights for fabricating effi cient photocatalysts.
基金
the National Key Research and Development Program of China(No.2018YFB1502001)
the National Natural Science Foundation of China(Nos.51922081,21773179,51961135303,51932007 and U1705251).
