2016
DOI: 10.1021/acs.jctc.6b00225
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Ionization Energies, Electron Affinities, and Polarization Energies of Organic Molecular Crystals: Quantitative Estimations from a Polarizable Continuum Model (PCM)-Tuned Range-Separated Density Functional Approach

Abstract: We propose a new methodology for the first-principles description of the electronic properties relevant for charge transport in organic molecular crystals. This methodology, which is based on the combination of a nonempirical, optimally tuned range-separated hybrid functional with the polarizable continuum model, is applied to a series of eight representative molecular semiconductor crystals. We show that it provides ionization energies, electron affinities, and transport gaps in very good agreement with exper… Show more

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Cited by 135 publications
(139 citation statements)
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“…Due to this strong dependence, small errors in the calculation of the energy disorder lead to large errors in the predicted charge carrier mobility, demanding high accuracy of all models involved in the simulation workflow. [112] Combining such approaches with accurate embedding schemes, it becomes possible to calculate solid state properties, such as thin film ionization energies or electron affinities [17,104,113] energy disorder parameters for electrons, holes, or excited states of a pristine material or a mixture of materials, distributions of electronic couplings for charge or exciton transport [114a] and optical film properties such as absorption spectra. [110,111] Recent advances toward quantitative electronic structure methods were made using methods like GW [104] or self-consistently tuned range-separated functionals.…”
Section: Electronic Structure and Quantum Embedding Methodsmentioning
confidence: 99%
“…Due to this strong dependence, small errors in the calculation of the energy disorder lead to large errors in the predicted charge carrier mobility, demanding high accuracy of all models involved in the simulation workflow. [112] Combining such approaches with accurate embedding schemes, it becomes possible to calculate solid state properties, such as thin film ionization energies or electron affinities [17,104,113] energy disorder parameters for electrons, holes, or excited states of a pristine material or a mixture of materials, distributions of electronic couplings for charge or exciton transport [114a] and optical film properties such as absorption spectra. [110,111] Recent advances toward quantitative electronic structure methods were made using methods like GW [104] or self-consistently tuned range-separated functionals.…”
Section: Electronic Structure and Quantum Embedding Methodsmentioning
confidence: 99%
“…24 More details on the optimization of the range-separation parameter have been well documented in the literature. 37 The electronic band structures were calculated with the CRYSTAL14 package 38 by using the B3LYP functional (we note that long-range-corrected functionals with tunable ω are currently not available for periodic systems and those with default values of ω lead to convergence issues with the spiro-OMeTAD single crystal used in our calculations). However, given that the transfer integrals calculated at the B3LYP level agree very well with the Opt-ωB97X-D results (see Table 1), the band structures calculated with the B3LYP functional are reliable.…”
Section: Density Functional Theory Calculationsmentioning
confidence: 99%
“…Previous theoretical studies of excited‐state properties of oligoacenes have been performed using high‐level post‐Hartree‐Fock (PHF) methods, but mostly with isolated molecules or small clusters. These PHF methods are too expensive to deal with large clusters or extended systems such as crystals and the studies are therefore limited to the molecular level where the solid polarization effect is completely ignored . Many‐body perturbation theory based on the GW approximation and the Bethe‐Salpeter equation (BSE) has been used to characterize the excited states for acenes from molecules, dimers and trimers to crystals .…”
Section: Introductionmentioning
confidence: 99%
“…Its nonlocal Fock‐like exchange component can benefit the inclusion of long‐range contributions. However, the “optimal” fractions of eX generally depend on the molecular systems and even different phases of the same molecule . Furthermore, the calculated electronic‐coupling parameter, band gap, UV‐vis absorption spectrum, and reflectivity in molecular crystals and solids are found to be very sensitive to the amount of eX.…”
Section: Introductionmentioning
confidence: 99%
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