Thiocarbonyl-Bridged N-Heterotriangulenes for Energy Efficient Triplet Photosensitization: A Theoretical Perspective

Chemphyschem. 2024 May 3:e202400371. doi: 10.1002/cphc.202400371. Online ahead of print.ABSTRACTRigid metal-free organic molecules are of high demand for various triplet harvesting applications. Inefficient intersystem crossing (ISC) due to large singlet-triplet gap ([[EQUATION]]) and small spin-orbit coupling (SOC) between lowest excited singlet and triplet in these molecules often limits their efficiency. We computationally investigate excited-state electronic structures, fluorescence and ISC rates in several thiiocarbonyl-bridged N-heterotriangulene ([[EQUATION]]S-HTG) with systematically increased S-content ([[EQUATION]]0-3). All [[EQUATION]]S-HTGs are dynamically stable and also thermodynamically feasible to synthesize. Relative energies of several low-lying singlets ([[EQUATION]]) and triplets ([[EQUATION]]), and their excitation nature ([[EQUATION]] or [[EQUATION]]) and SOC for these [[EQUATION]]S-HTGs in dichloromethane are determined implementing time-dependent optimally-tuned range-separated hybrid. Low-energy optical peak displays gradual red-shift with increasing S-content due to relatively smaller electronic gap resulted from greater degree of orbital delocalization. Significantly large SOC due to different orbital-symmetry and heavy-atom effect produces remarkably high ISC rates ([[EQUATION]] ~1012 s-1) for enthalpically favoured [[EQUATION]]([[EQUATION]]) channel in these [[EQUATION]]S-HTGs, which outcompete radiative fluorescence rates (~108 s-1) even directly...
Source: Chemphyschem - Category: Chemistry Authors: Source Type: research
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