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Molecular Description of Indigo Oxidation Mechanisms Initiated by OH and OOH Radicals

2012; American Chemical Society; Volume: 116; Issue: 14 Linguagem: Inglês

10.1021/jp211493k

1520-5215

Cristina Iuga, Elba Ortíz, J. Raúl Alvarez‐Idaboy, Annik Vivier‐Bunge,

Skin Protection and Aging

In this work, we report a quantum chemistry mechanistic study of the hydroxyl (•OH) and hydroperoxyl (•OOH) radicals initiated oxidation of indigo, within the density functional theory framework. All possible hydrogen abstraction and radical addition reaction pathways have been considered. We find that the reaction between a free indigo molecule and an •OH radical occurs mainly through two competing mechanisms: H-abstraction from an NH site and •OH addition to the central C═C double bond. Although the latter is favored, both channels occur, the indigo chromophore group structure is modified, and thus the color is changed. This mechanism adequately accounts for the loss of chromophore in urban air, including indoor air such as in museums and in urban areas. Regarding the reactivity of indigo toward •OOH radicals, only •OOH-addition to the central double bond is thermodynamically feasible. The corresponding transition state free energy value is about 10 kcal/mol larger than the one for the •OH initiated oxidation. Therefore, even considering that the •OOH concentration is considerably larger than the one of •OH, this reaction is not expected to contribute significantly to indigo oxidation under atmospheric conditions.