CO adsorption on (110)-(1 × 2) missing-row reconstructed surfaces of Pd, Au, and Pd3Au: Electronic structures and vibrational frequencies
Abstract
© 2017 The Physical Society of Japan. The adsorption of CO molecule on (110)-(1 × 2) missing-row reconstructed surfaces of Pd, Au, and Pd3Au with 87.5% Au segregation in the topmost layers were investigated by first-principles calculations based on density functional theory. On a pure Pd surface, CO is preferencially adsorbed on pseudo-fcc hollow site near the ridge sites. On pure Au and alloy surfaces, generally the ridge sites are the most stable for adsorption. The charge accumulation between the C atom and the surface atoms explains the calculated adsorption energies, with higher charge accumulation yielding a higher binding energy. The interaction of CO with the surfaces and the adsorption energies were also analyzed using the crystal orbital overlap population (COOP) technique and by considering the d-band model. CO vibrational modes were experimentally investigated for comparison. The vibrational frequencies are strongly influenced by the number of nearest neighbors of surface atoms as well as the type of atoms that constitute the nearest neighbors. In general, fewer nearest neighbors for the CO adsorption site results in higher vibrational frequencies. For adsorption sites with a certain number of nearest neighbors, the presence of Pd slightly decreases the vibrational frequencies. This observation is attributed to the broadening and the population of the derived 2Π+ orbital of CO upon its interaction with the surface.
Source or Periodical Title
Journal of the Physical Society of Japan
ISSN
319015
Document Type
Article
Recommended Citation
Chantaramolee, Bhume; Padama, Allan Abraham B.; Nakanishi, Hiroshi; Kasai, Hideaki; Ogura, Shohei; and Fukutani, Katsuyuki, "CO adsorption on (110)-(1 × 2) missing-row reconstructed surfaces of Pd, Au, and Pd3Au: Electronic structures and vibrational frequencies" (2021). Journal Article. 1388.
https://www.ukdr.uplb.edu.ph/journal-articles/1388