Journal
JOURNAL OF PHYSICAL CHEMISTRY B
Volume 126, Issue 19, Pages 3539-3550Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acs.jpcb.2c00248
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- JSPS KAKENHI [JP19K05377, JP18K05048, JP18H05180]
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Femtosecond time-resolved transient absorption spectroscopy was used to investigate the excited state dynamics of red-light-absorbing indigo derivatives. The study found that both trans -> cis and trans <- cis photoisomerization have short excited state lifetimes, and are influenced by intramolecular charge transfer.
Femtosecond time-resolved transient absorption (TRTA) spectroscopy was carried out to investigate the ultrafast excited state dynamics of both trans -> cis and trans <- cis photoisomerization of red-light-absorbing indigo derivatives. For N,N'-bis(tert-butyloxycarbonylmethyl)indigo (tBOMI), the excited state lifetime of the trans-form was measured to be 41 ps while that of the cis-form was as short as 730 fs in acetonitrile (Acn). The excited state lifetime of trans-N,N'-dimethylindigo (DMI) in Acn was also measured to be as short as 10 ps. These values are much shorter than those of the blue-light-absorbing trans-forms of indigo derivatives such as N,N'-diacetylindigo (DAI) and thioindigo (ThI). The chromophore of indigo is composed of two pairs of electron donor and acceptor substituents conjugated in the shape of a letter H (so-called Hchromophore), although DFT and TDDFT calculations suggest that the charge transfer (CT) character is not very significant. Nevertheless, when a weak CT within the H-chromophore is promoted, the absorption band shifts to longer wavelengths and the excited state lifetime shortens. For the photoisomerization of DAI and ThI, a relatively long excited state lifetime is required for the photoisomerization, while for tBOMI and DMI, a vibrationally hot ground state that overcomes the energy barrier in the ground state is produced by rapid nonradiative decay through conical intersection. In the case of cis-tBOMI, the repulsion between the two adjacent negatively charged carbonyl groups and the weakening of the central C=C double bond in the S-1 state twist the molecule, shorten the excited state lifetime, and increase the quantum yield of the trans <- cis photoisomerization.
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