量子点
光催化
分解水
热液循环
异质结
制氢
材料科学
析氧
化学工程
纳米技术
电子转移
电子
光化学
激发态
氢
光电子学
化学
物理
原子物理学
量子力学
电化学
物理化学
催化作用
工程类
有机化学
生物化学
电极
作者
Jie Liu,Jun Ke,Ying Li,Baojun Liu,Lidong Wang,Huining Xiao,Shaobin Wang
标识
DOI:10.1016/j.apcatb.2018.05.042
摘要
Abstract Solar-light driven water splitting to hydrogen and oxygen without sacrificial agents has gained tremendous attention due to the clean and renewable energy supply of the future. Herein, we report construction of Co3O4 quantum dots (QDs)/TiO2 nanobelts (NBs) hybrids via a facile hydrothermal method for simultaneous H2 and O2 productions from pure water, with high evolution rates of 41.8 and 22.0 μmol h−1 g−1, respectively, which are significantly enhanced compared with TiO2 NBs and Co3O4 materials. The Co3O4 QDs not only improve light sensitivity but also change the work function of TiO2, promoting the transfer of electrons from TiO2 to Co3O4 QDs and H2 generation on the surface of Co3O4 QDs. Moreover, the size effect of Co3O4 QDs (∼3 nm) facilitates the electron trapping due to the shorter pathway, and the generation of heterojunctions favors to suppress the recombination of photo-excited carries.
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