关键字：QUANTUM DOTS; JUNCTION PHOTOCATALYSTS; ZNIN2S4 NANOSHEETS; HETEROSTRUCTURE; FABRICATION; TIO2; PHOTOANODE; CONTACT; ROBUST; ROUTE

摘要：The efficient separation of photoexcited electrons and holes is crucial for improving the activity of photocatalytic hydrogen evolution. Herein, an efficient core-shell p-n heterojunction of ZnIn2S4@CuInS2 microflowers has been devised and fabricated by two-step hydrothermal method. The results revealed that the marigold-like microspheres of ZnIn2S4@CuInS2 heterojunction consisted of thin nanosheets, matched well in the lattice, and had a large interface contact area, which boosted charge separation and transfer for solar hydrogen production. Moreover, the intimate interfacial contact between n-type ZnIn2S4 and p-type CuInS2 resulted in the formation of unique p-n heterojunction, which further promoted charge separation due to the built-in electric field. As a consequence, the ZnIn2S4@CuInS2 photocatalyst with 5 atom % CuInS2 showed the highest production of H-2 evolution (about 1168 mu mol.g(-1)) among all prepared photocatalysts, which was nearly 4-fold the amount of the hydrogen production for the pristine ZnIn2S4. Therefore, the core-shell p-n heterojunction is an efficient structure design for the utilization of solar energy to obtain clean energy.

卷号：124

期号：11

是否译文：否