Abstract
We have examined the effect of spin contamination in single determinant wave function at the Hartree−Fock and density functional theory in studying adsorption on graphite. Particularly, we examined NO adsorption on a single-layer graphene where some carbon atoms were left unsaturated to simulate the active sites in char. Upon comparison with the results from the restricted open-shell Hartree−Fock (ROHF) method, we found that UHF has a large spin contamination. Consequently, this yields large errors in the Hartree−Fock ground-state wave function, energy-level splitting, and adsorption energy. Interestingly, the spin contamination using unrestricted density functional theory was small, and the energetic information was almost unaffected.
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