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Investigation of the benzene-dimer potential energy surface: DFT/CCSD(T) correction scheme (Article No. 114102)

Publication at Faculty of Mathematics and Physics |
2008

Abstract

A novel method, designated as the density functional theory/coupled-cluster with single and double and perturbative triple excitation [DFT/CCSD(T)] correction scheme, was developed for precise calculations of weakly interacting sp2 hydrocarbon molecules and applied to the benzene dimer. The DFT/CCSD(T) interaction energies are in excellent agreement with the estimated CCSD(T)/complete basis set interaction energies.

The tilted T-shaped structure having Cs symmetry was determined to be a global minimum on the benzene-dimer potential energy surface (PES), approximately 0.1kcalDIVISION SLASHmol more stable than the parallel-displaced structure. A fully optimized set of ten stationary points on the benzene-dimer PES is proposed for the evaluation of the reliability of methods for the description of weakly interacting systems.