Removal mechanism of decabromodiphenyl ether in soil by Cu/Fe nanoparticles

Siyuan Ling , Ying Han , Shuangqing Hu
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Abstract

Decabromodiphenyl ether (BDE-209), a widely used and environmentally significant legacy brominated flame retardant, is frequently found in farmland soil near electronic waste disposal sites and manufacturing facilities. Due to their high adsorption and dehalogenation capabilities, nanoparticles have become a prominent solution for soil remediation. Herein, Cu/Fe bimetallic nanoparticles (BNPs) were prepared and the use of these particles was investigated for the removal of BDE-209 from soil. Optimal conditions, including 9.1 wt% Cu loading and acidic environments, were identified to enhance the removal efficiency. The process involves desorption from soil, adsorption onto BNPs, and subsequent degradation. The contributions of adsorption and degradation were investigated by isolating the BNPs after the experiments conducted herein. Initially, adsorption played an important role, accounting for 25 %–38 % of the total removal, but this decreased to 14 % to 20 % as the reaction progressed, reaching at the equilibrium adsorption capacity after ∼3 h. Notably, hydroxylated polybrominated diphenyl ethers (PBDE) congeners were absent in all soil, BNP, and aqueous solution samples, indicating that stepwise debromination primarily drives the degradation process.

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铜/铁纳米颗粒去除土壤中十溴二苯醚的机理
十溴二苯醚(BDE-209)是一种广泛使用且对环境有重大影响的遗留溴化阻燃剂,经常出现在电子废物处理场和生产设施附近的农田土壤中。由于纳米粒子具有很强的吸附和脱卤能力,因此已成为土壤修复的一个重要解决方案。本文制备了铜/铁双金属纳米粒子(BNPs),并研究了如何利用这些粒子去除土壤中的 BDE-209。研究确定了提高去除效率的最佳条件,包括 9.1 wt% 的铜负载和酸性环境。这一过程包括从土壤中解吸、吸附到 BNPs 上以及随后的降解。实验结束后,通过分离 BNPs 对吸附和降解的贡献进行了研究。值得注意的是,所有土壤、BNP 和水溶液样品中都不存在羟基化的多溴联苯醚同系物,这表明逐步脱溴是降解过程的主要驱动力。
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来源期刊
Hygiene and environmental health advances
Hygiene and environmental health advances Environmental Science (General)
CiteScore
1.10
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0.00%
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0
审稿时长
38 days
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