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Cr(VI) Formation via Oxyhalide-Induced Oxidative Dissolution of Chromium Oxide/Hydroxide in Aqueous and Frozen Solution

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Title
Cr(VI) Formation via Oxyhalide-Induced Oxidative Dissolution of Chromium Oxide/Hydroxide in Aqueous and Frozen Solution
Other Titles
액상과 얼음상에서 크롬산화물로부터 할로겐물질에 의한 독성 6가크롬 용출기작 연구
Authors
Min, Dae Wi
Kim, Kitae
Kim, Bomi
Lee, Giehyeon
Choi, Wonyong
Subject
Engineering; Environmental Sciences & Ecology
Keywords
haxavalent chromium; ice chemitsry; oxyhalides
Issue Date
2020-11
Citation
Min, Dae Wi, et al. 2020. "Cr(VI) Formation via Oxyhalide-Induced Oxidative Dissolution of Chromium Oxide/Hydroxide in Aqueous and Frozen Solution". ENVIRONMENTAL SCIENCE & TECHNOLOGY, 54(22): 14413-14421.
Abstract
The oxidative dissolution of Cr(III) species (Cr2O3 and Cr(OH)3) by oxyhalide anions, which produces hexavalent chromium (Cr(VI)), was studied in aqueous and frozen solution. The oxyhalide-induced oxidation of Cr(III) in frozen solution showed a different trend from that in aqueous solution. Cr(VI) production was higher in frozen than aqueous solution with hypochloride (ClO-) and bromate (BrO3-), but suppressed in frozen solution with hypobromite (BrO-) and periodate (IO4-). In particular, bromate markedly enhanced Cr(VI) production in frozen solution whereas it had a negligible activity in aqueous solution. On the contrary, periodate produced Cr(VI) significantly in aqueous solution but greatly suppressed it in frozen solution. Bromate was found to be much more concentrated in the ice grain boundary than periodate according to both chemical and Raman spectral analysis. The oxidative transformation of Cr(III) to Cr(VI) was accompanied by the concurrent and stoichiometric reduction of oxyhalide anions. Dissolved O2 had little effect on the oxidative dissolution but dissolved organic matters retarded the oxidation of Cr2O3 in both aqueous and frozen conditions. This study proposes that the oxyhalide-induced oxidation of Cr(III) (particularly by bromate) in frozen condition might have a significant effect on the generation of Cr(VI) in the frozen environment.
URI
https://repository.kopri.re.kr/handle/201206/11808
DOI
http://dx.doi.org/10.1021/acs.est.0c04851
Appears in Collections  
2020-2020, Investigation of ice microstructure properties for developing low-temperature purification and environment/energy materials (20-20) / Kim, Kitae (PE20030)
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