RT Journal Article A1 Xiaoyan Ma,Jinquan Li,Changhua An,Juan Feng,Yuhua Chi,Junxue Liu,Jun Zhang,Yugang Sun; AD China University of Petroleum, 266580, 中国 ; China University of Petroleum, 266580, 中国 ; China University of Petroleum, 266580, 中国 ; China University of Petroleum, 266580, 中国 ; China University of Petroleum, 266580, 中国 ; China University of Petroleum, 266580, 中国 ; China University of Petroleum, 266580, 中国 T1 Ultrathin Co(Ni)-doped MoS2 nanosheets as catalytic promoters enabling efficient solar hydrogen production YR 2016 IS 8 vo 9 OP 2284-OP 2293 K1 MoS2;photocatalysis;water splitting;two-dimensional material AB The design of efficient artificial photosynthetic systems that harvest solar energy to drive the hydrogen evolution reaction via water reduction is of great importance from both the theoretical and practical viewpoints. Integrating appropriate co-catalyst promoters with strong light absorbing materials represents an ideal strategy to enhance the conversion efficiency of solar energy in hydrogen production. Herein, we report, for the first time, the synthesis of a class of unique hybrid structures consisting of ultrathin Co(Ni)-doped MoS2 nanosheets (co-catalyst promoter) intimately grown on semiconductor CdS nanorods (light absorber). The as-synthesized one-dimensional CdS@doped-MoS2 heterostructures exhibited very high photocatalytic activity (with a quantum yield of 17.3%) and stability towards H2 evolution from the photoreduction of water. Theoretical calculations revealed that Ni doping can increase the number of uncoordinated atoms at the edge sites of MoS2 nanosheets to promote electron transfer across the CdS/MoS2 interfaces as well as hydrogen reduction, leading to an efficient H2 evolution reaction. SN 1998-0124 LA EN