Open AccessCO2 adsorption on TiO2(110) rutile: Insight from dispersion-corrected density functional theory calculations and scanning tunneling microscopy experiments
Author(s) -
Dan C. Sorescu,
Junseok Lee,
W. A. Al-Saidi,
Kenneth D. Jordan
Publication year - 2011
Publication title -
the journal of chemical physics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.071
H-Index - 357
eISSN - 1089-7690
pISSN - 0021-9606
DOI - 10.1063/1.3561300
Subject(s) - scanning tunneling microscope , density functional theory , adsorption , rutile , dispersion (optics) , materials science , molecule , chemical physics , quantum tunnelling , molecular physics , chemistry , computational chemistry , nanotechnology , optics , physics , optoelectronics , organic chemistry
Adsorption of CO 2 on the rutile(110) surface was investigated using dispersion-corrected density functional theory and scanning tunneling microscopy (STM). On the oxidized surface the CO 2 molecules are found to bind most strongly at the five-fold coordinated Ti sites adopting tilted or flat configurations. The presence of bridging oxygen defects introduces two new adsorption structures, the most stable of which involves CO 2 molecules bound in tilted configurations at the defect sites. Inclusion of dispersion corrections in the density functional theory calculations leads to large increases in the calculated adsorption energies bringing these quantities into good agreement with experimental data. The STM measurements confirm two of the calculated adsorption configurations. © 2011 American Institute of Physics
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