Substitution pattern dependent behavior of the singlet excited states in symmetrically fluorinated biphenyls

Biphenyls are important basic chromophore systems that offer a possibility to study the effects of chemical substitution on the lower-lying excited states without complications from photoisomerization or other side processes. For several symmetric biphenyls, pristine biphenyl ( bP0 ), 4,4′-difluorob...

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Veröffentlicht in:Physical chemistry chemical physics : PCCP 2021-10, Vol.23 (38), p.2267-2277
Hauptverfasser: Sudarkova, Svetlana M, Khinevich, Victor E, Ioffe, Ilya N, Quick, M, Kovalenko, Sergey A
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Sprache:eng
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Zusammenfassung:Biphenyls are important basic chromophore systems that offer a possibility to study the effects of chemical substitution on the lower-lying excited states without complications from photoisomerization or other side processes. For several symmetric biphenyls, pristine biphenyl ( bP0 ), 4,4′-difluorobiphenyl (bP2 ), 2,3,5,6,2′,3′,5′,6′-octafluorobiphenyl ( bP8 ), and perfluorobiphenyl ( bP10 ), we report stationary and ultrafast solution-phase spectra rationalized with the aid of computations by means of the XMCQDPT2 multi-configuration perturbation theory and TDDFT. Polyfluorination tends to broaden the gap between the nearly degenerate S 1 + S 2 pair of states and the S 3 state in bP8 and bP10 , yet relaxation from any sheet of the S 1 -S 3 manifold leads through a system of state crossings to the same stationary points in S 1 . Unlike bP0 and bP2 where the relaxed excited state is planar and non-polar, excited bP8 and bP10 exhibit sudden polarization to give a symmetry-lowered excited state via pseudo-Jahn-Teller interactions involving S 1 and S 2 . Of particular interest is excited bP10 which reveals both sudden polarization and loss of planarity of one phenyl ring. We also demonstrate the unsatisfactory performance of the TDDFT methodology as applied to the biphenyls. We describe the effect of fluorination on the excited states in biphenyl. Unlike pristine biphenyl, highly fluorinated molecules form the polar S 1 state upon excitation.
ISSN:1463-9076
1463-9084
DOI:10.1039/d1cp03560f