Assessment of the Accuracy of TD-DFT Absorption Spectra: Substituted Benzenes

Jean-Marie André; Denis Jacquemin; Eric Perpète; Daniel Vercauteren; Valérie Wathelet

doi:10.1135/cccc20080898

Assessment of the Accuracy of TD-DFT Absorption Spectra: Substituted Benzenes

Jean-Marie André, Denis Jacquemin, Eric Perpète, Daniel Vercauteren, Valérie Wathelet

Research output: Contribution to journal › Article › peer-review

Abstract

Using the parameter-free PBE0 hybrid functional in conjunction with the conducting PCM model, we compute the UV/VIS spectra of a series of solvated phenol and nitrobenzene chromogens. For the first series, the average deviation with respect to experiment is large (about 0.5 eV) but the auxochromic shifts are very accurately and consistently predicted. Therefore, after a statistical treatment, the TD-DFT values are within 0.02 eV of the experimental data. For nitrobenzenes, the average discrepancy is smaller than for phenols, though the impact of individual substitution is much less consistent with experimental trends. We also confirm that push-pull compounds with donor and acceptor groups in meta positions are especially problematic for TD-DFT calculations relying on conventional hybrids, and we unravel the origin of this specific difficulty.

Original language	English
Pages (from-to)	898-908
Number of pages	11
Journal	Collection of Czechoslovak Chemical Communications
Volume	73
Issue number	6-7
DOIs	https://doi.org/10.1135/cccc20080898
Publication status	Published - 2008

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title = "Assessment of the Accuracy of TD-DFT Absorption Spectra: Substituted Benzenes",

abstract = "Using the parameter-free PBE0 hybrid functional in conjunction with the conducting PCM model, we compute the UV/VIS spectra of a series of solvated phenol and nitrobenzene chromogens. For the first series, the average deviation with respect to experiment is large (about 0.5 eV) but the auxochromic shifts are very accurately and consistently predicted. Therefore, after a statistical treatment, the TD-DFT values are within 0.02 eV of the experimental data. For nitrobenzenes, the average discrepancy is smaller than for phenols, though the impact of individual substitution is much less consistent with experimental trends. We also confirm that push-pull compounds with donor and acceptor groups in meta positions are especially problematic for TD-DFT calculations relying on conventional hybrids, and we unravel the origin of this specific difficulty. ",

author = "Jean-Marie Andr{\'e} and Denis Jacquemin and Eric Perp{\`e}te and Daniel Vercauteren and Val{\'e}rie Wathelet",

year = "2008",

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language = "English",

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TY - JOUR

T1 - Assessment of the Accuracy of TD-DFT Absorption Spectra: Substituted Benzenes

AU - André, Jean-Marie

AU - Jacquemin, Denis

AU - Perpète, Eric

AU - Vercauteren, Daniel

AU - Wathelet, Valérie

PY - 2008

Y1 - 2008

N2 - Using the parameter-free PBE0 hybrid functional in conjunction with the conducting PCM model, we compute the UV/VIS spectra of a series of solvated phenol and nitrobenzene chromogens. For the first series, the average deviation with respect to experiment is large (about 0.5 eV) but the auxochromic shifts are very accurately and consistently predicted. Therefore, after a statistical treatment, the TD-DFT values are within 0.02 eV of the experimental data. For nitrobenzenes, the average discrepancy is smaller than for phenols, though the impact of individual substitution is much less consistent with experimental trends. We also confirm that push-pull compounds with donor and acceptor groups in meta positions are especially problematic for TD-DFT calculations relying on conventional hybrids, and we unravel the origin of this specific difficulty.

AB - Using the parameter-free PBE0 hybrid functional in conjunction with the conducting PCM model, we compute the UV/VIS spectra of a series of solvated phenol and nitrobenzene chromogens. For the first series, the average deviation with respect to experiment is large (about 0.5 eV) but the auxochromic shifts are very accurately and consistently predicted. Therefore, after a statistical treatment, the TD-DFT values are within 0.02 eV of the experimental data. For nitrobenzenes, the average discrepancy is smaller than for phenols, though the impact of individual substitution is much less consistent with experimental trends. We also confirm that push-pull compounds with donor and acceptor groups in meta positions are especially problematic for TD-DFT calculations relying on conventional hybrids, and we unravel the origin of this specific difficulty.

U2 - 10.1135/cccc20080898

DO - 10.1135/cccc20080898

M3 - Article

SN - 0010-0765

VL - 73

SP - 898

EP - 908

JO - Collection of Czechoslovak Chemical Communications

JF - Collection of Czechoslovak Chemical Communications

IS - 6-7

ER -

Assessment of the Accuracy of TD-DFT Absorption Spectra: Substituted Benzenes

Abstract

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