期刊
JOURNAL OF HAZARDOUS MATERIALS
卷 426, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.jhazmat.2021.128077
关键词
Peroxymonosulfate; Peroxydisulfate; Multi-heteroatom doping; Carbocatalyst; Pollutant removal; Persulfate
资金
- Ministry of Higher Education Malaysia under the Fundamental Research Grant Scheme [FRGS/1/2020/STG04/USM/02/2]
This review provides an overview on the development of multi-heteroatom-doped carbocatalyst for persulfate activation, evaluating the potential interactions and summarizing the performance for pollutant removal. The preparation strategies, characterization techniques, and prospects for further research are also discussed.
Catalytic activation of peroxymonosulfate (PMS) and peroxydisulfate (PDS) (or collectively known as persulfate, PS) using carbocatalyst is increasingly gaining attention as a promising technology for sustainable recalcitrant pollutant removal in water. Single heteroatom doping using either N, S, B or P is widely used to enhance the performance of the carbocatalyst for PS activation. However, the performance enhancement from single heteroatom doping is limited by the type of heteroatom used. To further enhance the performance of the carbocatalyst beyond the limit of single heteroatom doping, multi-heteroatom doping can be conducted. This review aims to provide a state-of-the-art overview on the development of multi-heteroatom-doped carbocatalyst for PS activation. The potential synergistic and antagonistic interactions of various heteroatoms including N and B, N and S, N and P, and N and halogen for PS activation are evaluated. Thereafter, the preparation strategies to develop multi-heteroatom-doped carbocatalyst including one-step and multi-step preparation approaches along with the characterization techniques are discussed. Evidence and summary of the performance of multi-heteroatom-doped carbocatalyst for various recalcitrant pollutants removal via PS activation are also provided. Finally, the prospects of employing multi-heteroatom-doped carbocatalyst including the need to study the correlation between different heteroatom combination, surface moiety type, and amount of dopant with the PS activation mechanism, identifying the best heteroatom combination, improving the durability of the carbocatalyst, evaluating the feasibility for full-scale application, developing low-cost multi-heteroatom-doped carbocatalyst, and assessing the environmental impact are also briefly discussed.
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