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Accurate Vertical Excitation Energies of BODIPY/Aza-BODIPY Derivatives from Excited-State Mean-Field Calculations

Daniele Toffoli, Matteo Quarin, G. Fronzoni, Mauro Stener

2022The Journal of Physical Chemistry A19 citationsDOIOpen Access PDF

Abstract

We report a benchmark study of vertical excitation energies and oscillator strengths for the HOMO → LUMO transitions of 17 boron-dipyrromethene (BODIPY) structures, showing a large variety of ring sizes and substituents. Results obtained at the time-dependent density functional theory (TDDFT) and at the delta-self-consistent-field (ΔSCF) by using 13 different exchange correlation kernels (within LDA, GGA, hybrid, and range-separated approximations) are benchmarked against the experimental excitation energies when available. It is found that the time-independent ΔSCF DFT method, when used in combination with hybrid PBE0 and B3LYP functionals, largely outperforms TDDFT and can be quite competitive, in terms of accuracy, with computationally more costly wave function based methods such as CC2 and CASPT2.

Topics & Concepts

Time-dependent density functional theoryBODIPYExcitationExcited stateWave functionHybrid functionalBenchmark (surveying)HOMO/LUMODensity functional theoryChemistryComputational chemistryMolecular physicsPhysicsAtomic physicsQuantum mechanicsMoleculeFluorescenceGeographyGeodesyLuminescence and Fluorescent MaterialsSpectroscopy and Quantum Chemical StudiesPhotochemistry and Electron Transfer Studies
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