铁掺杂纤维结构二氧化硅纳米球作为催化臭氧化磺胺甲恶唑的高效催化剂。

Iron doped fibrous-structured silica nanospheres as efficient catalyst for catalytic ozonation of sulfamethazine.

机构信息

Collaborative Innovation Center for Advanced Nuclear Energy Technology, INET, Tsinghua University, Beijing, 100084, People's Republic of China.

School of Water Resources and Environment, China University of Geosciences, Beijing, 100083, China.

出版信息

Environ Sci Pollut Res Int. 2018 Apr;25(10):10090-10101. doi: 10.1007/s11356-018-1324-8. Epub 2018 Jan 30.

DOI:10.1007/s11356-018-1324-8

PMID:29383642

Abstract

Sulfonamide antibiotics are ubiquitous pollutants in aquatic environments due to their large production and extensive application. In this paper, the iron doped fibrous-structured silica (KCC-1) nanospheres (Fe-KCC-1) was prepared, characterized, and applied as a catalyst for catalytic ozonation of sulfamethazine (SMT). The effects of ozone dosage, catalyst dosage, and initial concentration of SMT were examined. The experimental results showed that Fe-KCC-1 had large surface area (464.56 m2 g) and iron particles were well dispersed on the catalyst. The catalyst had high catalytic performance especially for the mineralization of SMT, with mineralization ratio of about 40% in a wide pH range. With addition of Fe-KCC-1, the ozone utilization increased nearly two times than single ozonation. The enhancement of SMT degradation was mainly due to the surface reaction, and the increased mineralization of SMT was due to radical mechanism. Fe-KCC-1 was an efficient catalyst for SMT degradation in catalytic ozonation system.

摘要

磺胺类抗生素由于其大量的生产和广泛的应用，是水生环境中普遍存在的污染物。在本文中，制备了铁掺杂纤维结构二氧化硅（KCC-1）纳米球（Fe-KCC-1），并对其进行了表征，将其作为催化臭氧化磺胺甲恶唑（SMT）的催化剂。考察了臭氧剂量、催化剂剂量和 SMT 初始浓度的影响。实验结果表明，Fe-KCC-1 具有较大的比表面积（464.56 m2/g），并且铁颗粒在催化剂上均匀分散。该催化剂具有较高的催化性能，特别是对 SMT 的矿化作用，在较宽的 pH 范围内矿化率约为 40%。加入 Fe-KCC-1 后，臭氧的利用率比单独臭氧化提高了近两倍。SMT 降解的增强主要归因于表面反应，而 SMT 的增加的矿化则归因于自由基机制。Fe-KCC-1 是催化臭氧化体系中 SMT 降解的有效催化剂。

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铁掺杂纤维结构二氧化硅纳米球作为催化臭氧化磺胺甲恶唑的高效催化剂。

Iron doped fibrous-structured silica nanospheres as efficient catalyst for catalytic ozonation of sulfamethazine.

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