Abstract
The fabrication of low-cost and environmentally friendly photocatalysts with superior photodegradation efficiency remains one of the most pressing challenges in present research. Herein, we elaborately designed and synthesized a promising N-doped carbon quantum dots/CeO2 hollow microsphere (NCQDs/h-CeO2) photocatalyst with superior photoresponse property and photoactivity in visible light. The removal efficiencies of rhodamine B (RhB) under visible light illumination for NCQDs/h-CeO2 exhibits a 30.3% enhancement compared with pure h-CeO2. The results of EIS and PL imply that the excellent performance may be attributed to the strong synergistic effect between NCQDs and h-CeO2, thus effectively promoting charge transfer and restraining the recombination of photogenerated holes and electrons. Accordingly, a synergistic photocatalysis mechanism was proposed to explain the photocatalytic reaction process. Besides, the NCQDs/h-CeO2 exhibits better cycle stability than common CQDs/h-CeO2 after a four-cycle photocatalytic test. Therefore, the NCQDs/h-CeO2 may represent a promising strategy for the current water pollution issues.
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