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A mechanistic and kinetic investigation on the oxidative thermal decomposition of decabromodiphenyl ether.

Yao Wang, Jinbao Huang, Sijia Li, Weifeng Xu, Hong Wang, Weiwei Xu, Xinsheng Li

Environmental pollution (Barking, Essex : 1987) 2023 Sep 15


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  • (1 4) dioxin (1)
  • bde 209 (8)
  • decabromobiphenyl ether (2)
  • decabromobiphenyl ether (1)
  • dibenzo 1, 4) dioxin (2)
  • dibenzo 1, 4) dioxin (1)
  • diphenyl ethers (2)
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    The thermal processes of materials containing decabromodiphenyl ether (BDE-209) normally result in the exposure of BDE-209 to high-temperature environments, generating a series of hazardous compounds. However, the evolution mechanisms of BDE-209 during oxidative thermal processes remain unclear. Thus, this paper presents a detailed investigation on the oxidative thermal decomposition mechanism of BDE-209 by utilizing density functional theory methods at the M06/cc-pVDZ theoretical level. The results show that the barrierless fission of the ether linkage dominates the initial degradation of BDE-209 at all temperatures, with branching ratio over 80%. The decomposition of BDE-209 in oxidative thermal processes is mainly along BDE-209 → pentabromophenyl and pentabromophenoxy radicals → pentabromocyclopentadienyl radicals → brominated aliphatic products. Additionally, the study results on the formation mechanisms of several hazardous pollutants indicate that the ortho-phenyl-type radicals created by ortho-C-Br bond fission (branching ratio reached 15.1% at 1600 K) can easily be converted into octabrominated dibenzo-p-dioxin and furan, which require overcoming the energy barriers of 99.0 and 48.2 kJ/mol, respectively. The O/ortho-C coupling of two pentabromophenoxy radicals also acts as a non-negligible pathway for the formation of octabrominated dibenzo-p-dioxin. The synthesis of octabromonaphthalene involves the self-condensation of pentabromocyclopentadienyl radicals, followed by an intricately intramolecular evolution. Results presented in this study can enhance our understanding of the transformation mechanism of BDE-209 in thermal processes, and offer an insight into controlling the emissions of hazardous pollutants. Copyright © 2023. Published by Elsevier Ltd.

    Citation

    Yao Wang, Jinbao Huang, Sijia Li, Weifeng Xu, Hong Wang, Weiwei Xu, Xinsheng Li. A mechanistic and kinetic investigation on the oxidative thermal decomposition of decabromodiphenyl ether. Environmental pollution (Barking, Essex : 1987). 2023 Sep 15;333:121991

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    PMID: 37328125

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