Tuning Adsorption Energies and Reaction Pathways by Alloying: PdZn versus Pd for CO Hydrogenation to Methanol.
Fiche publication
Date publication
septembre 2020
Journal
The journal of physical chemistry letters
Auteurs
Membres identifiés du Cancéropôle Est :
Pr GAUDRY Emilie
Tous les auteurs :
Brix F, Desbuis V, Piccolo L, Gaudry É
Lien Pubmed
Résumé
The tunability offered by alloying different elements is useful to design catalysts with greater activity, selectivity, and stability than single metals. By comparing the Pd(111) and PdZn(111) model catalysts for CO hydrogenation to methanol, we show that intermetallic alloying is a possible strategy to control the reaction pathway from the tuning of adsorbate binding energies. In comparison to Pd, the strong electron-donor character of PdZn weakens the adsorption of carbon-bound species and strengthens the binding of oxygen-bound species. As a consequence, the first step of CO hydrogenation more likely leads to the formate intermediate on PdZn, while the carboxyl intermediate is preferentially formed on Pd. This results in the opening of a pathway from carbon dioxide to methanol on PdZn similar to that previously proposed on Cu. These findings rationalize the superiority of PdZn over Pd for CO conversion into methanol and suggest guidance for designing more efficient catalysts by promoting the proper reaction intermediates.
Référence
J Phys Chem Lett. 2020 Sep 17;11(18):7672-7678