DFT study of the entire reaction cycle of H2O2 decomposition and O2 generation catalyzed by Fenton reagent
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ARSENE, Ion, GORINCHOY, Natalia. DFT study of the entire reaction cycle of H2O2 decomposition and O2 generation catalyzed by Fenton reagent. In: Chemistry Journal of Moldova, 2019, nr. 1(14), pp. 88-97. ISSN 1857-1727. DOI: https://doi.org/10.19261/cjm.2018.543
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Chemistry Journal of Moldova
Numărul 1(14) / 2019 / ISSN 1857-1727 /ISSNe 2345-1688

DFT study of the entire reaction cycle of H2O2 decomposition and O2 generation catalyzed by Fenton reagent

DOI: https://doi.org/10.19261/cjm.2018.543
CZU: 542.943+544.4

Pag. 88-97

Arsene Ion1, Gorinchoy Natalia2
 
1 Tiraspol State University,
2 Institute of Chemistry
 
Disponibil în IBN: 10 iulie 2019


Rezumat

The reaction cycle of H2O2 decomposition and O2 generation catalyzed by Fenton reagent was studied using density functional theory calculations. A four-stage mechanism for the oxygen production and the Fe2+ regeneration in the Fenton reaction is proposed based on the obtained results. The transition state for each step of the entire reaction cycle was localized and verified by intrinsic reaction coordinate analysis. It is shown that the O-O bond cleavage of coordinated H2O2 at the first step of reaction does not lead to a free HO● radical. Instead, a highly reactive intermediate [FeIV(H2O)4(OH)2]2+ with two HO● radicals “trapped” in the complex is formed with the energy barrier of 15 kcal/mol. The result of the next two reaction steps is the formation of the two HO2● radicals which can react on the triplet energy surface in order to produce O2 in the triplet ground state and a H2O2 molecule.

Cuvinte-cheie
Fenton reaction, H2O2 decomposition, DFT calculation

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