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Accurate Surface and Adsorption Energies from Many-body Perturbation Theory

Overview
Journal Nat Mater
Date 2010 Jul 27
PMID 20657589
Citations 36
Authors
L Schimka
J Harl
A Stroppa
A Gruneis
M Marsman
F Mittendorfer
G Kresse
Affiliations
Soon will be listed here.
Abstract

Kohn-Sham density functional theory is the workhorse computational method in materials and surface science. Unfortunately, most semilocal density functionals predict surfaces to be more stable than they are experimentally. Naively, we would expect that consequently adsorption energies on surfaces are too small as well, but the contrary is often found: chemisorption energies are usually overestimated. Modifying the functional improves either the adsorption energy or the surface energy but always worsens the other aspect. This suggests that semilocal density functionals possess a fundamental flaw that is difficult to cure, and alternative methods are urgently needed. Here we show that a computationally fairly efficient many-electron approach, the random phase approximation to the correlation energy, resolves this dilemma and yields at the same time excellent lattice constants, surface energies and adsorption energies for carbon monoxide and benzene on transition-metal surfaces.

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