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Predicting C-H/$\pi$ interactions with nonlocal density functional theory

Materials Science 2009-11-13 v1
Authors: Joe Hooper , Valentino R. Cooper , T. Thonhauser , Nichols A. Romero , Frank Zerilli , David C. Langreth
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Abstract

We examine the performance of a recently developed nonlocal density functional in predicting a model noncovalent interaction, the weak bond between an aromatic π\pi system and an aliphatic C-H group. The new functional is a significant improvement over traditional density functionals, providing results which compare favorably to high-level quantum-chemistry techniques but at considerably lower computational cost. Interaction energies in several model C-H/π\pi systems are in generally good agreement with coupled-cluster calculations, though equilibrium distances are consistently overpredicted when using the revPBE functional for exchange. The new functional correctly predicts changes in energy upon addition of halogen substituents.

Keywords

density functional theory density functional theory and electronic structure nonlinear localized modes

Cite

@article{arxiv.0707.3393,
  title  = {Predicting C-H/$\pi$ interactions with nonlocal density functional theory},
  author = {Joe Hooper and Valentino R. Cooper and T. Thonhauser and Nichols A. Romero and Frank Zerilli and David C. Langreth},
  journal= {arXiv preprint arXiv:0707.3393},
  year   = {2009}
}

Comments

5 pages, 4 figures

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