The triazine-based carbon nitride known as polytriazine imide(PTI)is a metal-free semiconductor photocatalyst but usually shows moderate activity due to its limited charge transfer mobility.Here,carbon self-doped PTI(...The triazine-based carbon nitride known as polytriazine imide(PTI)is a metal-free semiconductor photocatalyst but usually shows moderate activity due to its limited charge transfer mobility.Here,carbon self-doped PTI(C-PTI)was prepared via a facile and green method by using glucose as the carbon source.In the condensation process,glucose can promote nanotube formation,giving the product larger surface areas.Moreover,carbon self-doping induces an intrinsic change in the electronic structure,thus optimizing the band structure and the electronic transport property.Therefore,the as-synthesized C-PTI exhibits remarkably enhanced photocatalytic activities for both hydrogen evolution and tetracycline degradation reactions.展开更多
基金Project supported by the National Natural Science Foundation of China(No.51702134)the Natural Science Foundation of Jiangsu Province(No.BK20170310)+1 种基金the PhD Research Startup Foundation of Jiangsu University of Technology(No.KYY18038)the Postgraduate Research&Practice Innovation Program of Jiangsu Province(No.XSJCX2001),China。
文摘The triazine-based carbon nitride known as polytriazine imide(PTI)is a metal-free semiconductor photocatalyst but usually shows moderate activity due to its limited charge transfer mobility.Here,carbon self-doped PTI(C-PTI)was prepared via a facile and green method by using glucose as the carbon source.In the condensation process,glucose can promote nanotube formation,giving the product larger surface areas.Moreover,carbon self-doping induces an intrinsic change in the electronic structure,thus optimizing the band structure and the electronic transport property.Therefore,the as-synthesized C-PTI exhibits remarkably enhanced photocatalytic activities for both hydrogen evolution and tetracycline degradation reactions.
