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Intrinsic chemical reaction between iron oxide and iodide in ice and its environmental impacts

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Title
Intrinsic chemical reaction between iron oxide and iodide in ice and its environmental impacts
Other Titles
얼음 내 산화철과 요오드의 화학반응 연구
Authors
Kim, Kitae
Issue Date
2017
Citation
Kim, Kitae. 2017. Intrinsic chemical reaction between iron oxide and iodide in ice and its environmental impacts. CATCH 2017 workshop. 파리. 2017.04.19~2017.04.20.
Abstract
It is known that the chemical processes taking place in ice phase is different from that in aqueous water. This difference between two phases might control the mobility, bioavailability, toxicity, and the environmental fate of organic and inorganic species. In general, most chemical reactions slow down as the reaction temperature decreases. However, various redox chemical processes are accelerated when the solution is solidified. Iron(Fe) is one of the most important trace elements for living species and the limiting component to control primary production in HNLC(High Nutrient and Low chlorophyll) regions including Southern Ocean. Consequently, this stimulated primary production by bioavailable iron can absorb atmospheric CO2 and then affect climate change. Most of the iron in environment is existed as iron oxide or (oxy)hydroxides form and they are not directly bioavailable for living organisms. Dissolution of iron oxides increases their bioavailability. The chemical fate of active halogen compounds in the polar atmosphere controls ozone and mercury depletion events, oxidizing capacity, and dimethyl sulfide(DMS) oxidation to form CCN(cloud-condensation nuclei). The sources and mechanisms of iodine species in polar atmosphere are not well understood compared to those of chlorine and bromine. In this work, we studied the reductive dissolution of iron oxide particles to produce bio-available Fe(II)aq and simultaneous oxidation of I- (iodide) to produce I3- (tri-iodide) in ice phase under UV irradiation or dark condition. The reductive dissolution of iron oxide and oxidation of iodide was markedly enhanced in ice phase regardless of presence or absence of light. The detailed experimental conditions and mechanism will be discussed in the presentation.
URI
http://repository.kopri.re.kr/handle/201206/7198
Conference Name
CATCH 2017 workshop
Conference Place
파리
Conference Date
2017.04.19~2017.04.20
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