AIP Publishing
Journal of Chemical Physics
volume 130 issue 5 pages 54112

A long-range-corrected density functional that performs well for both ground-state properties and time-dependent density functional theory excitation energies, including charge-transfer excited states

Publication typeJournal Article
Publication date2009-02-05
AIP Publishing
scimago Q1
wos Q2
SJR0.819
CiteScore5.3
Impact factor3.1
ISSN00219606, 10897690
DOI:  10.1063/1.3073302
PubMed ID:  19206963
Physical and Theoretical Chemistry
General Physics and Astronomy
Abstract
We introduce a hybrid density functional that asymptotically incorporates full Hartree-Fock exchange, based on the long-range-corrected exchange-hole model of Henderson et al. [J. Chem. Phys. 128, 194105 (2008)]. The performance of this functional, for ground-state properties and for vertical excitation energies within time-dependent density functional theory, is systematically evaluated, and optimal values are determined for the range-separation parameter, omega, and for the fraction of short-range Hartree-Fock exchange. We denote the new functional as LRC-omegaPBEh, since it reduces to the standard PBEh hybrid functional (also known as PBE0 or PBE1PBE) for a certain choice of its two parameters. Upon optimization of these parameters against a set of ground- and excited-state benchmarks, the LRC-omegaPBEh functional fulfills three important requirements: (i) It outperforms the PBEh hybrid functional for ground-state atomization energies and reaction barrier heights; (ii) it yields statistical errors comparable to PBEh for valence excitation energies in both small and medium-sized molecules; and (iii) its performance for charge-transfer excitations is comparable to its performance for valence excitations. LRC-omegaPBEh, with the parameters determined herein, is the first density functional that satisfies all three criteria. Notably, short-range Hartree-Fock exchange appears to be necessary in order to obtain accurate ground-state properties and vertical excitation energies using the same value of omega.
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Rohrdanz M. A., Martins K. M., Herbert J. M. A long-range-corrected density functional that performs well for both ground-state properties and time-dependent density functional theory excitation energies, including charge-transfer excited states // Journal of Chemical Physics. 2009. Vol. 130. No. 5. p. 54112.
GOST all authors (up to 50) Copy
Rohrdanz M. A., Martins K. M., Herbert J. M. A long-range-corrected density functional that performs well for both ground-state properties and time-dependent density functional theory excitation energies, including charge-transfer excited states // Journal of Chemical Physics. 2009. Vol. 130. No. 5. p. 54112.
RIS |
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RIS Copy
TY - JOUR
DO - 10.1063/1.3073302
UR - https://doi.org/10.1063/1.3073302
TI - A long-range-corrected density functional that performs well for both ground-state properties and time-dependent density functional theory excitation energies, including charge-transfer excited states
T2 - Journal of Chemical Physics
AU - Rohrdanz, Mary A
AU - Martins, Katie M
AU - Herbert, John M.
PY - 2009
DA - 2009/02/05
PB - AIP Publishing
SP - 54112
IS - 5
VL - 130
PMID - 19206963
SN - 0021-9606
SN - 1089-7690
ER -
BibTex |
Cite this
BibTex (up to 50 authors) Copy
@article{2009_Rohrdanz,
author = {Mary A Rohrdanz and Katie M Martins and John M. Herbert},
title = {A long-range-corrected density functional that performs well for both ground-state properties and time-dependent density functional theory excitation energies, including charge-transfer excited states},
journal = {Journal of Chemical Physics},
year = {2009},
volume = {130},
publisher = {AIP Publishing},
month = {feb},
url = {https://doi.org/10.1063/1.3073302},
number = {5},
pages = {54112},
doi = {10.1063/1.3073302}
}
MLA
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Rohrdanz, Mary A., et al. “A long-range-corrected density functional that performs well for both ground-state properties and time-dependent density functional theory excitation energies, including charge-transfer excited states.” Journal of Chemical Physics, vol. 130, no. 5, Feb. 2009, p. 54112. https://doi.org/10.1063/1.3073302.
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