Extended Pi-Sigma tilde orbital model for CO adsorption on Pt and Ru

ORAL

Abstract

Several discrepencies between the predicted Blyholder-type adsobtion models and experimental, as well as DFT calculated infared spectra have been addressed for atop CO on Pt in contrast to Ru. This model correlates increased Near Edge X-Ray Absorbtion Fine Structure intensity as the result of a sub-eV downshift from CO on Ru compared to CO on Pt thereby forming a weaker C-O bond. The model accounts for the hybrid orbitals electron transfer between the CO - metal bonds while taking in to consideration the orbital polarization within the CO itself. The charge redistribution of the s-tilde orbitals and reduced charge donation from CO to the surface results in a weaker internal CO bond upon Ru relative to Pt. The extended Pi-Sigma model explains why atop C-O stretching frequencies do not correlate with carbon p-type vacancies.

*Calculations done on the High Performance Computing Cluster at UT-Pan American. NEXAFS was done on U7A NIST/DOW beamline at Brookheaven National Synchrotron Light Source with funding from the Army Research Office.

Authors

  • Thomas Mion

    • University of Texas Pan American

  • Nicholas Dimakis

    • University of Texas Pan American

  • Faisal Alamgir

    • National Institute of Standards and Technology

  • Cherno Jaye

    • Hunter College of CUNY

  • Daniel Fischer

    • National Institute of Standards and Technology

  • Paul McGinn

    • University of Notre Dame

  • James Cooper

    • University of Notre Dame

  • Steve Greenbaum

    • Hunter College of CUNY

  • Eugene Smotkin

    • Northeastern University