A semiempirical addition of dispersive forces to conventional density functionals (DFT-D) has been implemented into a pseudopotential plane-wave code. Test calculations on the benzene dimer reproduced the results obtained by using localized basis set, provided that the latter are corrected for the basis set superposition error. By applying the DFT-D/plane-wave approach a substantial agreement with experiments is found for the structure and energetics of polyethylene and graphite. two typical solids that are badly described by standard local and semilocal density functionals.
Role and Effective Treatment of Dispersive Forces inMaterials: Polyethylene and Graphite Crystals as Test Cases
CASARIN, MAURIZIO;SAMBI, MAURO;
2009
Abstract
A semiempirical addition of dispersive forces to conventional density functionals (DFT-D) has been implemented into a pseudopotential plane-wave code. Test calculations on the benzene dimer reproduced the results obtained by using localized basis set, provided that the latter are corrected for the basis set superposition error. By applying the DFT-D/plane-wave approach a substantial agreement with experiments is found for the structure and energetics of polyethylene and graphite. two typical solids that are badly described by standard local and semilocal density functionals.
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