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      0–0 Energies Using Hybrid Schemes: Benchmarks of TD-DFT, CIS(D), ADC(2), CC2, and BSE/ GW formalisms for 80 Real-Life Compounds

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          Abstract

          The 0–0 energies of 80 medium and large molecules have been computed with a large panel of theoretical formalisms. We have used an approach computationally tractable for large molecules, that is, the structural and vibrational parameters are obtained with TD-DFT, the solvent effects are accounted for with the PCM model, whereas the total and transition energies have been determined with TD-DFT and with five wave function approaches accounting for contributions from double excitations, namely, CIS(D), ADC(2), CC2, SCS-CC2, and SOS-CC2, as well as Green’s function based BSE/ GW approach. Atomic basis sets including diffuse functions have been systematically applied, and several variations of the PCM have been evaluated. Using solvent corrections obtained with corrected linear-response approach, we found that three schemes, namely, ADC(2), CC2, and BSE/ GW allow one to reach a mean absolute deviation smaller than 0.15 eV compared to the measurements, the two former yielding slightly better correlation with experiments than the latter. CIS(D), SCS-CC2, and SOS-CC2 provide significantly larger deviations, though the latter approach delivers highly consistent transition energies. In addition, we show that (i) ADC(2) and CC2 values are extremely close to each other but for systems absorbing at low energies; (ii) the linear-response PCM scheme tends to overestimate solvation effects; and that (iii) the average impact of nonequilibrium correction on 0–0 energies is negligible.

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          Toward reliable density functional methods without adjustable parameters: The PBE0 model

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            Ab initio effective core potentials for molecular calculations. Potentials for main group elements Na to Bi

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              Assessment of the Perdew–Burke–Ernzerhof exchange-correlation functional

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                Author and article information

                Journal
                J Chem Theory Comput
                J Chem Theory Comput
                ct
                jctcce
                Journal of Chemical Theory and Computation
                American Chemical Society
                1549-9618
                1549-9626
                28 September 2015
                10 November 2015
                : 11
                : 11
                : 5340-5359
                Affiliations
                []Laboratoire CEISAM - UMR CNR 6230, Université de Nantes , 2 Rue de la Houssinière, BP 92208, 44322 Nantes Cedex 3, France
                []Institut Universitaire de France , 103 bd St. Michel, 75005 Paris Cedex 5, France
                [§ ]INAC, SP2M/L_Sim, CEA/UJF, Cedex 09, 38054 Grenoble, France
                []Institut NEEL, Univ. Grenoble Alpes , F-38042 Grenoble, France
                []Institut NEEL, CNRS , F-38042 Grenoble, France
                Author notes
                Article
                10.1021/acs.jctc.5b00619
                4642227
                26574326
                0253dc5e-1371-4701-b72d-1b4fe1d12a79
                Copyright © 2015 American Chemical Society

                This is an open access article published under an ACS AuthorChoice License, which permits copying and redistribution of the article or any adaptations for non-commercial purposes.

                History
                : 30 June 2015
                Categories
                Article
                Custom metadata
                ct5b00619
                ct-2015-006193

                Computational chemistry & Modeling
                Computational chemistry & Modeling

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