模拟太阳光下 Fe(III)配合物/H2O2 对六溴环十二烷（HBCD）的光降解。

Photodegradation of hexabromocyclododecane (HBCD) by Fe(III) complexes/H2O 2 under simulated sunlight.

机构信息

College of Material Science and Chemical Engineering, China University of Geosciences, Wuhan, 430074, China.

出版信息

Environ Sci Pollut Res Int. 2014 May;21(9):6228-33. doi: 10.1007/s11356-014-2553-0. Epub 2014 Feb 1.

Abstract

Hexabromocyclododecane (HBCD) is a globally produced brominated flame retardant used primarily as an additive flame retardant in polystyrene and textile products. Photodegradation of HBCD in the presence of Fe(III)-carboxylate complexes/H2O2 was investigated under simulated sunlight. The degradation of HBCD decreased with increasing pH in the Fe(III)-oxalate solutions. In contrast, the optimum pH was 5.0 for the Fe(III)-citrate-catalyzed photodegradation within the range of 3.0 to 7.0. For both Fe(III)-oxalate and Fe(III)-citrate complexes, the increase of carboxylate concentrations facilitated the photodegradation. The photochemical removal of HBCD was related to the photoreactivity and speciation distribution of Fe(III) complexes. The addition of H2O2 markedly accelerated the degradation of HBCD in the presence of Fe(III)-citrate complexes. The quenching experiments showed that ·OH was responsible for the photodegradation of HBCD in the Fe(III)-carboxylate complexes/H2O2 solutions. The results suggest that Fe(III) complexes/H2O2 catalysis is a potential method for the removal of HBCD in the aqueous solutions.

摘要

六溴环十二烷（HBCD）是一种全球生产的溴系阻燃剂，主要用作聚苯乙烯和纺织品的添加型阻燃剂。研究了模拟太阳光下 Fe(III)-羧酸盐配合物/H2O2 存在时 HBCD 的光降解。在 Fe(III)-草酸盐溶液中，HBCD 的降解随 pH 值的升高而降低。相比之下，在 3.0 到 7.0 的范围内，Fe(III)-柠檬酸盐催化的光降解的最佳 pH 值为 5.0。对于 Fe(III)-草酸盐和 Fe(III)-柠檬酸盐配合物，羧酸根浓度的增加都有利于光降解。HBCD 的光化学去除与 Fe(III)配合物的光反应性和形态分布有关。在 Fe(III)-柠檬酸盐配合物存在下，添加 H2O2 可显著加速 HBCD 的降解。猝灭实验表明，·OH 是 Fe(III)-羧酸盐配合物/H2O2 溶液中 HBCD 光降解的原因。结果表明，Fe(III)配合物/H2O2 催化是去除水溶液中 HBCD 的一种潜在方法。

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模拟太阳光下 Fe(III)配合物/H2O2 对六溴环十二烷（HBCD）的光降解。

Photodegradation of hexabromocyclododecane (HBCD) by Fe(III) complexes/H2O 2 under simulated sunlight.

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