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Casarin M, Maccato C, Vittadini A. Theoretical Investigation of the Chemisorption of H(2) and CO on the ZnO(10&onemacr;0) Surface. Inorg Chem. 1998;37(21):5482-5490doi: 10.1021/ic980443s.
Casarin, M., Maccato, C., & Vittadini, A. (1998). Theoretical Investigation of the Chemisorption of H(2) and CO on the ZnO(10&onemacr;0) Surface. Inorganic chemistry, 37(21), 5482-5490. https://doi.org/10.1021/ic980443s
Casarin, Maurizio, et al. "Theoretical Investigation of the Chemisorption of H(2) and CO on the ZnO(10&onemacr;0) Surface." Inorganic chemistry vol. 37,21 (1998): 5482-5490. doi: https://doi.org/10.1021/ic980443s
Casarin M, Maccato C, Vittadini A. Theoretical Investigation of the Chemisorption of H(2) and CO on the ZnO(10&onemacr;0) Surface. Inorg Chem. 1998 Oct 19;37(21):5482-5490. doi: 10.1021/ic980443s. PMID: 11670691.
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Inorg Chem. 1998 Oct 19;37(21):5482-5490. doi: 10.1021/ic980443s.

Theoretical Investigation of the Chemisorption of H(2) and CO on the ZnO(10&onemacr;0) Surface.

Inorganic chemistry

Maurizio Casarin, Chiara Maccato, Andrea Vittadini

Affiliations

  1. Dipartimento di Chimica Inorganica, Metallorganica ed Analitica, Università di Padova, Via Loredan 4, Padova, Italy, and Centro di Studio sulla Stabilità e Reattività dei Composti di Coordinazione del CNR, Via Marzolo 1, Padova, Italy.

PMID: 11670691 DOI: 10.1021/ic980443s

Abstract

Density functional molecular cluster calculations have been used to study the adsorption of CO and H(2) on the ZnO(10&onemacr;0) surface. Substrate and adsorbate geometry modifications, adsorption energies and adsorbate vibrations are computed in good agreement with experiment. For CO, the influence of Cu surface impurities has been also considered. Despite the limited size of the adopted clusters, surface relaxations computed for the clean and undoped ZnO(10&onemacr;0) agree well with experimental measurements. The chemisorption of CO on ZnO(10&onemacr;0) relieves some of the relaxation of the Lewis acid site (); nevertheless, the electronic structure is negligibly affected by the interaction with CO. At variance to that, the stronger interaction of CO with copper impurities significantly influences both the geometry and the electronic structure of, extending its effects to the adjacent Lewis base site (). The dissociative adsorption of H(2) is found to be exothermic by 23 kcal/mol, and it implies the -bond breaking.

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