DFT Modeling of Mechanism of Hydrogenation of Phenylacetylene into Styrene on a Pd(111) Surface

DFT Modeling of Mechanism of Hydrogenation of Phenylacetylene into Styrene on a Pd(111) Surface

A quantum chemical study of the possible routes of the phenylacetylene (PA) hydrogenation to styrene on a Pd(111) surface is carried out by the DFT-PBE method in the scalar-relativistic approximation. It is shown that the routes associated with the formation of the Ph–C–CH 2 or Ph–CH–CH intermediate...

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Veröffentlicht in:Kinetics and catalysis 2018-05, Vol.59 (3), p.333-338
Hauptverfasser: Shamsiev, R. S., Danilov, F. O.
Format: Artikel
Sprache:eng
Schlagworte:
Catalysis
Chemistry
Chemistry and Materials Science
Hydrogenation
Molecular chains
Organic chemistry
Palladium
Physical Chemistry
Quantum chemistry
Styrenes
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Zusammenfassung:A quantum chemical study of the possible routes of the phenylacetylene (PA) hydrogenation to styrene on a Pd(111) surface is carried out by the DFT-PBE method in the scalar-relativistic approximation. It is shown that the routes associated with the formation of the Ph–C–CH 2 or Ph–CH–CH intermediates at the first stage have similar values of the turnover frequency (156 and 48 h –1 , respectively). The route associated with the 1,2-hydride transfer in the adsorbed PA molecule is improbable due to the formation of a thermodynamically stable intermediate, Ph–CH–C. The interaction of the Ph group in the adsorbed PA molecule with the metal surface leads to the nonselective hydrogenation of the PA.
ISSN:0023-1584
1608-3210
DOI:10.1134/S0023158418030187