Issue 41, 2024

Investigation of excited states of BODIPY derivatives and non-orthogonal dimers from the perspective of singlet fission

Abstract

We report state of the art electronic structure calculations RICC2 and XMCQDPT of BODIPY nonorthogonal dimers to understand the photophysical processes from the intramolecular singlet fission (iSF) perspective. We have calculated singlet, triplet and quintet states at the XMCQDPT(8,8)/cc-pVDZ level of theory and diabatic singlet states at the XMCQDPT(4,4)/cc-pVDZ level of theory. In all the systems studied, charge transfer states (1(CA) and 1(AC)) couple strongly with locally excited (1(S1S0)) and multiexcitonic (1(T1T1)) states. The rates of formation of the multiexcitonic state from the locally excited state are very low on account of large activation energy (E(1(T1T1)) − E(1(S1S0))). A relaxed scan along the torsional angle revealed contrasting results for axial and orthogonal conformers. We proposed a probable mechanism for contrasting photophysical properties of dimers B[3,3] and B[2,8]. We also found that substitution of CN, NH2 and BH2 at meso, β and α positions reduces the energy gap (ΔSF = 2E(T1) − E(S1)) significantly, making iSF a competing process in triplet state generation. Intrigued by the success of the CN group at the meso position in reducing the energy gap, we also studied the azaBODIPY monomer and its derivatives using the same methodology. The iSF is slightly endoergic with ΔSF ∼ 0.2 eV in these systems and iSF may play an important role in their photophysical responses.

Graphical abstract: Investigation of excited states of BODIPY derivatives and non-orthogonal dimers from the perspective of singlet fission

Supplementary files

Article information

Article type
Paper
Submitted
04 7 2024
Accepted
13 9 2024
First published
16 9 2024

Phys. Chem. Chem. Phys., 2024,26, 26398-26408

Investigation of excited states of BODIPY derivatives and non-orthogonal dimers from the perspective of singlet fission

S. Goyal and S. R. Reddy, Phys. Chem. Chem. Phys., 2024, 26, 26398 DOI: 10.1039/D4CP02656J

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