AI Article Synopsis
- A novel core-shell catalyst (Fe@POCN/CQDs) was synthesized for effectively degrading tetracycline, showing photocatalytic activity about 4.76 times greater than GCN.
- The enhanced performance is attributed to the effective heterojunction and synergistic effects between POCN, Fe, and CQDs, which help reduce electron-hole recombination while generating more free radicals for oxidation.
- The optimal removal of tetracycline reached 97.57% in 30 minutes under specific conditions, with reactive oxygen species playing crucial roles in the degradation process.
Article Abstract
In this study, novel core-shell catalyst with a new ternary heterostructure was synthesized (Fe@POCN/CQDs) for the degradation of tetracycline (TC). The TEM results showed that the Fe particles were wrapped in POCN material and many nano CQDs were uniformly dispersed in the material. The new ternary nanocomposite exhibits excellent photocatalytic activity for the removal of TC, which was approximately 4.76 times higher than that of GCN. The enhancement of photocatalytic activity was attributed to the effective heterojunction as well as the multiply synergistic effects of POCN combined with Fe and CQDs, which was beneficial for retardation of recombination rate of photogenerated electron-hole pairs and generation of more free radicals for the oxidation of TC. Besides, the reactive oxygen species (ROS) of h, •O and •OH played pivotal roles in the degradation of TC by Fe@POCN/CQDs during the photocatalytic reaction. At the same times, sulfate radical (SO) and hydroxyl radical (•OH) highlighted the dominant role in the degradation process compared with other free radicals under persulfate hybrid mixture system (PS system), which was further confirmed by radical scavenger experiments and electron spin resonance (ESR) analysis. The response surface methodology (RSM) study indicated that the optimal removal parameters of tetracycline could reach 97.57% within 30 min under PS system. In addition, the possible degradation pathway intermediates of TC were studied by HPLC-MS and the reaction catalytic activity mechanism of Fe@POCN/CQDs/persulfate system was discussed.
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| http://dx.doi.org/10.1016/j.chemosphere.2020.128806 | DOI Listing |
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