Citation: Xuewei Zhang, Xueliang Zhang, Xin Wang, Lequan Liu, Jinhua Ye, Defa Wang. Enhancing the photocatalytic activity and photostability of zinc oxide nanorod arrays via graphitic carbon mediation[J]. Chinese Journal of Catalysis, ;2018, 39(5): 973-981. doi: 10.1016/S1872-2067(18)63010-4 shu

Enhancing the photocatalytic activity and photostability of zinc oxide nanorod arrays via graphitic carbon mediation

Xuewei Zhang ^a, ,
Xueliang Zhang ^a ,
Xin Wang ^a ,
Lequan Liu ^a,b ,
Jinhua Ye ^a,b,c ,
Defa Wang ^a,b

a TJU-NIMS International Collaboration Laboratory, Key Lab of Advanced Ceramics and Machining Technology of Ministry of Education, Tianjin Key Lab of Composite and Functional Materials, School of Materials Science and Engineering, Tianjin University, Tianjin 300072, China;
b Collaborative Innovation Center of Chemical Science and Engineering(Tianjin), Tianjin 300072, China;
c International Center of Materials Nanoarchitectonics(WPI-MANA), National Institute for Materials Science(NIMS), Ibaraki 305-0044, Japan

Received Date: 18 November 2017
Revised Date: 28 December 2017

Fund Project: This work was supported by the National Basic Research Program of China (973 Program, 2014CB239300), the National Natural Science Foundation of China (51572191, 21633004), and the Natural Science Foundation of Tianjin City (13JCYBJC16600).

Low optical absorption and photocorrosion are two crucial issues limiting the practical applications of zinc oxide (ZnO)-based photocatalysts. In this paper, we report the fabrication of graphitic-carbon-mediated ZnO nanorod arrays (NRAs) with enhanced photocatalytic activity and photostability for CO₂ reduction under visible light irradiation. ZnO NRA/C-x (x=005, 01, 02, and 03) nanohybrids are prepared by calcining pre-synthesized ZnO NRAs with different amounts of glucose (0.05, 0.1, 0.2, and 0.3 g) as a carbon source via a hydrothermal method. X-ray photoelectron spectroscopy reveals that the obtained ZnO NRA/C-x nanohybrids are imparted with the effects of both carbon doping and carbon coating, as evidenced by the detected C-O-Zn bond and the C-C, C-O and C=O bonds, respectively. While the basic structure of ZnO remains unchanged, the UV-Vis absorption spectra show increased absorbance owing to the carbon doping effect in the ZnO NRA/C-x nanohybrids. The photoluminescence (PL) intensities of ZnO NRA/C-x nanohybrids are lower than that of bare ZnO NRA, indicating that the graphitic carbon layer coated on the surface of the ZnO NRA significantly enhances the charge carrier separation and transport, which in turn enhances the photoelectrochemical property and photocatalytic activity of the ZnO NRA/C-x nanohybrids for CO₂ reduction. More importantly, a long-term reaction of photocatalytic CO₂ reduction demonstrates that the photostability of ZnO NRA/C-x nanohybrids is significantly increased in comparison with the bare ZnO NRA.
- Photocatalysis,
- ZnO nanorod array,
- Graphitic carbon,
- Charge transfer,
- Photostability,
- CO₂ reduction
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