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双金属和纳米零价铁对多溴二苯醚脱溴反应的动力学和途径:颗粒性质和催化剂的影响。

Kinetics and pathways for the debromination of polybrominated diphenyl ethers by bimetallic and nanoscale zerovalent iron: effects of particle properties and catalyst.

机构信息

Department of Civil and Environmental Engineering, Stanford University, Stanford, CA 94305-4020, United States.

出版信息

Chemosphere. 2012 Oct;89(4):426-32. doi: 10.1016/j.chemosphere.2012.05.078. Epub 2012 Jun 23.

DOI:10.1016/j.chemosphere.2012.05.078
PMID:22732301
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3408778/
Abstract

Polybrominated diphenyl ethers (PBDEs) are recognized as a new class of widely-distributed and persistent contaminants for which effective treatment and remediation technologies are needed. In this study, two kinds of commercially available nanoscale Fe(0) slurries (Nanofer N25 and N25S), a freeze-dried laboratory-synthesized Fe(0) nanoparticle (nZVI), and their palladized forms were used to investigate the effect of particle properties and catalyst on PBDE debromination kinetics and pathways. Nanofers and their palladized forms were found to debrominate PBDEs effectively. The laboratory-synthesized Fe(0) nanoparticles also debrominated PBDEs, but were slower due to deactivation by the freeze-drying and stabilization processes in the laboratory synthesis. An organic modifier, polyacrylic acid (PAA), bound on N25S slowed PBDE debromination by a factor of three to four compared to N25. The activity of palladized nZVI (nZVI/Pd) was optimized at 0.3 Pd/Fe wt% in our system. N25 could debrominate selected environmentally-abundant PBDEs, including BDE 209, 183, 153, 99, and 47, to end products di-BDEs, mono-BDEs and diphenyl ether (DE) in one week, while nZVI/Pd (0.3 Pd/Fe wt%) mainly resulted in DE as a final product. Step-wise major PBDE debromination pathways by unamended and palladized Fe(0) are described and compared. Surface precursor complex formation is an important limiting factor for palladized Fe(0) reduction as demonstrated by PBDE pathways where steric hindrance and rapid sequential debromination of adjacent bromines play an important role.

摘要

多溴二苯醚(PBDEs)被认为是一类广泛分布且持久性强的新型污染物,需要开发有效的处理和修复技术。本研究采用两种市售纳米零价铁(Nanofer N25 和 N25S)悬浮液、一种冷冻干燥实验室合成的纳米零价铁(nZVI)颗粒及其钯化形式,研究了颗粒特性和催化剂对 PBDE 脱溴动力学和途径的影响。研究发现,纳米零价铁及其钯化形式能有效脱溴 PBDEs。实验室合成的纳米零价铁颗粒也能脱溴 PBDEs,但由于冷冻干燥和实验室合成过程中的稳定化处理,导致其失活,反应速度较慢。与 N25 相比,与 N25S 结合的有机改性剂聚丙烯酸(PAA)使 PBDE 脱溴速度降低了三到四倍。在我们的体系中,nZVI/Pd(0.3Pd/Fewt%)的钯化活性最佳。N25 可在一周内将环境中丰富的 PBDEs(包括 BDE 209、183、153、99 和 47)脱溴至二溴代二苯醚(di-BDEs)、单溴代二苯醚(mono-BDEs)和二苯醚(DE),而 nZVI/Pd(0.3Pd/Fewt%)主要生成 DE 作为最终产物。描述并比较了未修饰和钯化零价铁的逐步主要 PBDE 脱溴途径。表面前体络合物的形成是钯化零价铁还原的一个重要限制因素,这可以从空间位阻和相邻溴原子快速连续脱溴在其中发挥重要作用的 PBDE 途径中得到证明。

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