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Diverse quantum interference regimes in intramolecular singlet fission chromophores with thiophene-based linkersopen access

Authors
Lee, JonghwanEom, SungsikKim, Hyungjun
Issue Date
Nov-2024
Publisher
Royal Society of Chemistry
Citation
Chemical Science, v.15, no.43, pp 17823 - 17830
Pages
8
Indexed
SCIE
SCOPUS
Journal Title
Chemical Science
Volume
15
Number
43
Start Page
17823
End Page
17830
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/198122
DOI
10.1039/d4sc03546a
ISSN
2041-6520
2041-6539
Abstract
An array of thiophene-based p-conjugated linkers in covalently linked pentacene dimers allow us to access diverse quantum interference (QI), modulating nonadiabatic coupling (NAC) in the singlet fission (SF) process. Simulations show that structural isomerism in terms of S atom orientation substantially alters NAC with relatively marginal impacts on energies. Extended curly arrow rules (ECARs) reveal sensitive dependence of QI on SF linker topologies and connectivity, categorizing regimes of constructive, destructive, and previously unrealized in SF research, shifted destructive QI. Drastic NAC changes in terms of S atom orientation are rationalized based on the nature of QI. Our results from nonequilibrium Green's function calculation using density functional theory corroborate the classification of QI regimes based on ECARs. Moreover, we found that the extent of charge resonance contribution in electronic states relevant to multiexciton formation and the appearance of optically allowed charge transfer excitation strongly depends on the operative QI regime. Notably, the magnitude of NAC effectively captures this influence. Our findings show that QI can rationalize and semi-quantitatively correlate with NAC for the multiexciton formation step in the SF process.
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