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Benzene  Adsorption on (110) Surfaces of  Transition Metals: Role of Van Der Waals Interaction and Substrate

Tuesday, May 13, 2014
Grand Foyer, Lobby Level (Hilton Orlando Bonnet Creek)
J. Matos (University Of Central Florida), H. Yildirim (Purdue University), and A. Kara (University Of Central Florida)
The characteristics of Benzene adsorption on metals and their alloy surfaces, and the interface features have been the subject of many experimental and theoretical studies. With the availability of the new vdW functionals, we revisit this organic molecule/metal system to assess the influence of vdW interactions on the adsorption as well as to examine the performance of these vdW functionals. We will present the adsorption geometries, adsorption energies and heights, the characteristics of interface electronic structure, and the charge transfer for Benzene adsorption on the (110) surfaces of seven transition metals; Au, Ag, Cu, Pd, Pt, Rh, and Ni. The calculations are carried out using PBE and vdW-DF family functionals implemented in the VASP package. We will provide comparisons with the available experimental and theoretical studies on the adsorption geometries and energies, and the effect introduced by varying surface chemistries. We will also provide comparisons with the recent study for Benzene adsorption on the (111) surfaces of the same metal substrates [1]. 

[1] H. Yildirim, T. Greber, and A. Kara J. Phys. Chem. C 2013, 117, 20572. 

This work is funded by the U.S. Department of Energy Basic Energy Science under Contract No DE-FG02-11ER16243