期刊
DALTON TRANSACTIONS
卷 44, 期 24, 页码 11223-11234出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/c5dt01479d
关键词
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资金
- Major State Basic Resource Development Program [2012CB224804]
- NSFC [21373054, 21173052]
- Natural Science Foundation of Shanghai Science and Technology Committee [08DZ2270500]
A novel CeO2 nanorod/g-C3N4/N-rGO ternary composite was synthesized using a simple ultrasonic-heat treatment method for application in the photocatalytic degradation of organic pollutants under the irradiation of visible light. This material shows superior photocatalytic activity compared with pure g-C3N4 and CeO2 nanorods, and the photodegradation rate of RhB is up to 2.1-fold higher than that of the g-C3N4/N-rGO (at the optimum content of 0.25 wt% N-rGO) catalyst when the content of CeO2 nanorods was 2 wt%. The enhancement of photocatalytic activity could be attributed to the synergistic effect among CeO2, g-C3N4 and N-rGO (serves as a conductive network), which was found to lead to more efficient separation of photogenerated electron-hole pairs, resulting in the effective photodegradation of organic pollutants. In addition, superoxide radical anions (O-center dot(2)-) and holes (h(+)) were considered as the main reactive species during the photodegradation process, and the ternary composite also exhibited preferable stability for the decomposition of RhB. This work provides an in-depth perspective for understanding the N-doped graphene-involved photocatalytic mechanism.
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