Theoretical Study of the Mechanism of Propionic Acid Deoxygenation on the Palladium Surface


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Using the DFT–PBE method in the scalar relativistic approximation, the mechanisms of the two main pathways of propionic acid deoxygenation on the rough and flat (111) palladium surfaces have been studied. According to the calculations, in the decarboxylation mechanism on rough and flat surfaces, the formation of the following intermediates is preferable: C2H5COO, C2H4COO, and C2H4. For the second deoxygenation pathway via decarbonylation reactions, the mechanisms on different surfaces of palladium differ. Thus, on a rough surface, the most likely steps are C2H5COOH → C2H5CO → C2H5 → C2H4, and on the Pd(111) surface the most likely steps are C2H5COOH → C2H4COOH → C2H4CO → C2H4. The coordination unsaturation of palladium atoms contributes to a decrease in the activation barriers of the reaction by 8–13 kcal/mol. Thus, the flat surface of palladium particles is less active in the deoxygenation of carboxylic acids. The type of palladium surface insignificantly affects the selectivity of deoxygenation. On a rough surface, the decarbonylation rate is slightly higher than the rate of decarboxylation. On the Pd(111) surface, the rate of decarboxylation is higher. The difference in the activation barriers of these pathways of deoxygenation is small (0.7 kcal/mol).

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R. Shamsiev

MIREA–Russian Technological University (Lomonosov Institute of Fine Chemical Technologies)

编辑信件的主要联系方式.
Email: Shamsiev.R@gmail.com
俄罗斯联邦, Moscow, 119571

I. Sokolov

MIREA–Russian Technological University (Lomonosov Institute of Fine Chemical Technologies)

Email: Shamsiev.R@gmail.com
俄罗斯联邦, Moscow, 119571

F. Danilov

MIREA–Russian Technological University (Lomonosov Institute of Fine Chemical Technologies)

Email: Shamsiev.R@gmail.com
俄罗斯联邦, Moscow, 119571

V. Flid

MIREA–Russian Technological University (Lomonosov Institute of Fine Chemical Technologies)

Email: Shamsiev.R@gmail.com
俄罗斯联邦, Moscow, 119571

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