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Abstract
Molecules where the energy of the lowest excited singlet state is found below the energy of the lowest triplet state (inverted singlet-triplet molecules) are extremely rare. It is particularly challenging to discover new ones through virtual screening because the required wavefunction-based methods are expensive and unsuitable for high-throughput calculations. Here, we devised a virtual screening approach where the molecules to be considered with advanced methods are pre-selected with increasingly more sophisticated filters that include the evaluation of the HOMO-LUMO exchange integral and approximate CASSCF calculations. A final set of 7 candidates (0.05\% of the initial 15000) were verified to possess inversion between singlet and triplet states with state-of-the-art multireference methods (MS--CASPT2). One of them is deemed of particular interest because it is unrelated to other proposals made in the literature.
Supplementary materials
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Supporting Information
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Additional figures, including active space definition and occupancies, adiabatic gaps with additional single– and multi–reference methods, comparison between equilibrium geometries of S0 , S1 , and T1.
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Title
Electronic Supporting Information
Description
This repository contains electronic supporting information for the paper Identification of New Inverted Singlet-Triplet Cores by High-Throughput Virtual Screening, submitted to ChemRxiv by O. H. Omar, X. Xie, A. Troisi, and D. Padula.
Each subfolder contains files for the various simulations reported in the paper.
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