Volker Kleinschmidt scite author profile

The elementary steps of the methanol synthesis reaction at oxygen vacancies on the polar ZnO(0001 j ) surface have been studied with density functional theory. We report results for reaction and activation energies for the most important elementary steps of the methanol synthesis reaction on this surface. At these oxygen vacancies the barriers for heterolytic cleavage of H 2 into protons, bound in surface OH groups, and hydrides, trapped in the vacancies, is low. The stabilized hydride facilitates the reduction of CO to formyl (stabilized in the vacancy) with a low barrier j100 kJ/mol. After a fast rearrangement to formaldehyde and hydroxymethylene species, a second reduction step leads probably to a surface-bound methoxide which at reducing conditions desorbs from the surface under regeneration of an oxygen vacancy. Beside formate, which appears as a side product, and formyl species, oxygen-bound hydroxymethylene might be another observable intermediate of the methanol synthesis reaction at oxygen vacancy sites on the ZnO(0001 j ) surface.

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Modeling protonated water networks in bacteriorhodopsin

Rousseau

Kleinschmidt

Schmitt

et al. 2004

Phys. Chem. Chem. Phys.

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Zuordnung der Protonierungsmuster von Wassernetzwerken in Bakteriorhodopsin mittels berechneter Infrarotspektren

et al. 2004

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