Carboxylic acid formation by hydroxyl insertion into acyl moieties on late transition metalsElectronic supplementary information (ESI) available: Additional results are provided as supporting information in the online version of this article: structures of TS geometries, additional correlation plots, additional energy data, Cartesian coordinates of pertinent stationary structures. See DOI: 10.1039/c7cy00972k

Autor: ChenPresent address: Department of Chemical, Benjamin W. J., Engineering, Biological, Wisconsin-Madi, University of, Genest, Alexander, Hühn, Adrian, Rösch, Notker
Zdroj: Catalysis Science & Technology; 2017, Vol. 7 Issue: 22 p5365-5375, 11p
Abstrakt: Aqueous phase reforming of alcohols over Pt has been discussed to operate along two pathways, decarbonylation and decarboxylation. To gain a better understanding of the activity of various catalysts for decarboxylation, we examined computationally a key step of this mechanism on the 12 transition metals of groups 8 to 11, namely the formation of a carboxylic acid intermediate viametal-mediated insertion of OH into an acyl group. The trend of the calculated barriers of OH insertion parallels the oxophilicity of the metals. A separation of the reaction into two formal steps isolates OH activation as a major contribution to the barrier and, not unexpectedly, indicates a strong dependence on the OH adsorption energy. A decomposition analysis of the activation energy reveals that weaker OH adsorption also correlates with the interaction energy between the adsorbed fragments in the transition state, thus indirectly lowering the barrier for OH insertion. Metals in the bottom right-hand corner of the transition metal block studied –Pt, Au, and Ag– bind OH relatively weakly, hence feature a high OH insertion activity. We applied these findings to rationalize various experimental results and suggest catalysts for decarboxylation.
Databáze: Supplemental Index