2010
DOI: 10.3762/bjoc.6.112
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Donor-acceptor substituted phenylethynyltriphenylenes – excited state intramolecular charge transfer, solvatochromic absorption and fluorescence emission

Abstract: SummarySeveral 2-(phenylethynyl)triphenylene derivatives bearing electron donor and acceptor substituents on the phenyl rings have been synthesized. The absorption and fluorescence emission properties of these molecules have been studied in solvents of different polarity. For a given derivative, solvent polarity had minimal effect on the absorption maxima. However, for a given solvent the absorption maxima red shifted with increasing conjugation of the substituent. The fluorescence emission of these derivative… Show more

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Cited by 68 publications
(26 citation statements)
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“…These represent the well‐known S 0 → S 2 transitions of naphthalene‐based ligands 26. Finally, for Gd–DTPA–BEthA, a maximum absorption can be seen at 263 nm, which corresponds to the phenylethynyl group of the ligand 27…”
Section: Resultsmentioning
confidence: 97%
“…These represent the well‐known S 0 → S 2 transitions of naphthalene‐based ligands 26. Finally, for Gd–DTPA–BEthA, a maximum absorption can be seen at 263 nm, which corresponds to the phenylethynyl group of the ligand 27…”
Section: Resultsmentioning
confidence: 97%
“…The emission maximum in DMF is independent of the substituents, indicating no signicant intramolecular charge transfer in the excited state. 33,34 However, in the case of 7a a small broad peak is visible around 550 nm, possibly due to interactions between the PEG chains and the free hydroxyl groups of the triphenylene moiety, leading to aggregation or excimer formation.…”
Section: Resultsmentioning
confidence: 99%
“…Equation (1) describes the Stokes shifts (=A -F) in terms of the change in dipole moment of the fluorophore (Δ = E -G) and the dependence of the dipole energy on the  values and refractive index (n) of the solvent. It also accounts for the general solvent effect, but it does not account for specific solvent-fluorophore interactions, such as those involved in hydrogen bonding [15]. The Lippert-Mataga plots for T2NH2 and T2NMe2 in aprotic solvents are shown in Figure 4.…”
Section: T2nme2mentioning
confidence: 99%
“…The Lippert-Mataga plots for T2NH2 and T2NMe2 in aprotic solvents are shown in Figure 4. From the slopes in this plot, the change in the dipole moment (Δ) of the fluorophore upon electronic excitation (E -G) was estimated, assuming the molecular radius as the cavity radius [15]. The molecules under consideration are non-spherical; hence, the substitution of the molecular radius for the cavity radius is only approximate.…”
Section: T2nme2mentioning
confidence: 99%