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可见光照射下FeO-g-CN增强光还原降解多溴二苯醚

Enhanced photoreduction degradation of polybromodiphenyl ethers with FeO-g-CN under visible light irradiation.

作者信息

Shao Ying-Ying, Ye Wei-Dong, Sun Chun-Yan, Liu Chun-Lin, Wang Qi, Chen Chun-Cheng, Gu Jia-Yun, Chen Xiao-Qing

机构信息

Department of Chemistry, Shaoxing University Shaoxing 312000 Zhejiang PR China

School of Environment Sciences and Engineering, Zhejiang Gongshang University Hangzhou PR China.

出版信息

RSC Adv. 2018 Mar 19;8(20):10914-10921. doi: 10.1039/c8ra01356j. eCollection 2018 Mar 16.

DOI:10.1039/c8ra01356j
PMID:35541522
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9078955/
Abstract

As typical persistent organic pollutants, polybrominated diphenyl ethers (PBDEs) have aroused high environmental concern due to their toxicity and recalcitrant degradation. Herein, we report the enhanced photoreduction degradation of polybromodiphenyl ethers with FeO-g-CN under visible light irradiation (>420 nm). A series of high activity photocatalysts FeO-g-CN (named FeOCN-) have been synthesized by an growth method. The characterization of the prepared FeOCN- nanocomposites has been examined by SEM, TEM, ultraviolet-visible diffuse reflectance spectroscopy, a vibrating sample magnetometer, X-ray diffraction, X-ray photoelectron spectroscopy and Brunauer-Emmer-Teller surface area analysis. FeOCN- hybrids all exhibit good magnetic separation properties with the saturation magnetization at 300 K varying from 0.4 to 6.3 emu g. Under visible light irradiation, FeOCN- hybrids show enhanced photocatalytic activity for the debromination of PBDEs compared with g-CN. Among all the hybrids, FeOCN-4 with a 4 wt% FeO content gives the highest reaction rate, which is 6.7 times as high as that in pure g-CN The FeOCN- nanocomposites not only exhibit good photostability, but could also be easily recovered by magnetism. The results of the kinetic isotope effects (KIE) and the trapping agent experiments show that the rate determining step in the degradation reaction of PBDEs with FeOCN- is the rate of electron accumulation in the conductive band. A possible photoreductive mechanism has been proposed. This study shows that the easily magnetically separable recycled photocatalyst FeOCN-, with high visible light activity, could be an excellent candidate for dealing with halogen pollutants.

摘要

作为典型的持久性有机污染物,多溴二苯醚(PBDEs)因其毒性和难降解性而引起了高度的环境关注。在此,我们报道了在可见光照射(>420 nm)下,FeO-g-CN对多溴二苯醚的光还原降解性能增强。通过一种生长方法合成了一系列高活性光催化剂FeO-g-CN(命名为FeOCN-)。通过扫描电子显微镜(SEM)、透射电子显微镜(TEM)、紫外可见漫反射光谱、振动样品磁强计、X射线衍射、X射线光电子能谱和布鲁诺尔-埃米特-泰勒比表面积分析对制备的FeOCN-纳米复合材料进行了表征。FeOCN-杂化物均表现出良好的磁分离性能,300 K时的饱和磁化强度在0.4至6.3 emu g之间变化。在可见光照射下,与g-CN相比,FeOCN-杂化物对PBDEs的脱溴表现出增强的光催化活性。在所有杂化物中,FeO含量为4 wt%的FeOCN-4具有最高的反应速率,是纯g-CN中反应速率的6.7倍。FeOCN-纳米复合材料不仅表现出良好的光稳定性,而且还可以通过磁性轻松回收。动力学同位素效应(KIE)和捕获剂实验结果表明,PBDEs与FeOCN-降解反应的速率决定步骤是导带中电子积累的速率。提出了一种可能的光还原机理。本研究表明,易于磁分离回收的光催化剂FeOCN-具有高可见光活性,可能是处理卤素污染物的优秀候选材料。

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原位还原合成Ti³⁺自掺杂TiO₂/g-C₃N₄异质结及其在LED光照射下的高光催化性能
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