A fragment method for systematic improvement of anharmonic adsorbate vibrational frequencies: acetylene on Cu(001)
We suggest a novel method for systematic improvement of anharmonic adsorbate frequencies based on a fragment approach. The calculations are carried out by considering the adsorbed molecule separately and computing an energy correction using high-level ab initio method in addition to a standard calcu...
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| Published in | The Journal of chemical physics Vol. 139; no. 21; p. 214704 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
United States
07.12.2013
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| Online Access | Get more information |
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| Abstract | We suggest a novel method for systematic improvement of anharmonic adsorbate frequencies based on a fragment approach. The calculations are carried out by considering the adsorbed molecule separately and computing an energy correction using high-level ab initio method in addition to a standard calculation of the whole adsorbed system using quantum mechanical techniques with periodic boundary conditions. We demonstrate its reliability for a C2H2 molecule chemisorbed on a Cu(001) surface. We also show that the accuracy of the presented approach with a suitable description of the periodic surface depends mainly on the accuracy of the high-level ab initio method used to describe the adsorbate molecule. Moreover, our technique potentially allows to predict adsorbate vibrational spectra with spectroscopic accuracy. |
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| AbstractList | We suggest a novel method for systematic improvement of anharmonic adsorbate frequencies based on a fragment approach. The calculations are carried out by considering the adsorbed molecule separately and computing an energy correction using high-level ab initio method in addition to a standard calculation of the whole adsorbed system using quantum mechanical techniques with periodic boundary conditions. We demonstrate its reliability for a C2H2 molecule chemisorbed on a Cu(001) surface. We also show that the accuracy of the presented approach with a suitable description of the periodic surface depends mainly on the accuracy of the high-level ab initio method used to describe the adsorbate molecule. Moreover, our technique potentially allows to predict adsorbate vibrational spectra with spectroscopic accuracy. |
| Author | Chulkov, Sergey K Benoit, David M |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/24320391$$D View this record in MEDLINE/PubMed |
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| Title | A fragment method for systematic improvement of anharmonic adsorbate vibrational frequencies: acetylene on Cu(001) |
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