硫化纳米零价铁去除抗生素氟苯尼考。

Removal of Antibiotic Florfenicol by Sulfide-Modified Nanoscale Zero-Valent Iron.

机构信息

State Key Laboratory of Estuarine and Coastal Research, East China Normal University , Shanghai 200062, China.

Department of Civil and Environmental Engineering, Carnegie Mellon University , Pittsburgh 15213, United States.

出版信息

Environ Sci Technol. 2017 Oct 3;51(19):11269-11277. doi: 10.1021/acs.est.7b02480. Epub 2017 Sep 25.

DOI:10.1021/acs.est.7b02480

PMID:28902992

Abstract

Florfenicol (FF, CHClFNOS), an emerging halogenated organic contaminant of concern was effectively degraded in water by sulfidized nanoscale zerovalent iron (S-nZVI). Sulfidized nZVI (62.5 m g) that was prepared using a one-step method resulted in small Fe/Fe-sulfide particles that were more stable against aggregation than unsulfidized nZVI (10.2 m g). No obvious removal of FF was observed by unsulfidized nZVI. S-nZVI degraded FF, having a surface area normalized reaction rate constant of 3.1 × 10 L m min. The effects of the S/Fe molar ratio, initial FF concentration, initial pH, temperature, and water composition on the removal of FF by S-nZVI, and on the formation of reaction products, were systematically investigated. Both dechlorination and defluorination were observed, resulting in four degradation products (CHClFNOS, CHFNOS, CHNOS, and CHNOS). High removal efficiencies of FF by S-nZVI were achieved in groundwater, river water, seawater, and wastewater. The reactivity of S-nZVI was relatively unaffected by the presence of both dissolved ions and organic matter in the waters tested.

摘要

氟苯尼考（FF，CHClFNOS）是一种新兴的含卤素有机污染物，在水中可被硫化纳米零价铁（S-nZVI）有效降解。采用一步法制备的硫化纳米零价铁（62.5mg）产生的 Fe/Fe-硫化物颗粒比未硫化纳米零价铁（10.2mg）更稳定，不易聚集。未硫化纳米零价铁对 FF 没有明显的去除作用。S-nZVI 降解 FF 的表面面积归一化反应速率常数为 3.1×10L m min。系统研究了 S/nZVI 摩尔比、FF 初始浓度、初始 pH 值、温度和水成分对 FF 去除率及反应产物形成的影响。实验观察到脱氯和脱氟现象，生成了四种降解产物（CHClFNOS、CHFNOS、CHNOS 和 CHNOS）。S-nZVI 在地下水、河水、海水和废水中对 FF 具有较高的去除效率。S-nZVI 的反应活性受测试水样中溶解离子和有机物的存在影响较小。

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硫化纳米零价铁去除抗生素氟苯尼考。

Removal of Antibiotic Florfenicol by Sulfide-Modified Nanoscale Zero-Valent Iron.

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