Photophysics of cyanophenylpyrroles: investigation of solvatochromic properties and charge transfer by ultrafast spectroscopy and DFT calculations (CROSBI ID 211697)
Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija
Podaci o odgovornosti
Basarić, Nikola ; Clementi, Catia ; Carlotti, Benedetta ; Alešković, Marija ; Elisei, Fausto
engleski
Photophysics of cyanophenylpyrroles: investigation of solvatochromic properties and charge transfer by ultrafast spectroscopy and DFT calculations
A comprehensive investigation of the photophysics of cyanophenylpyrrole derivatives has been carried out by means of steady-state, nanosecond and femtosecond resolved absorption and fluorescence techniques, and quantum mechanical calculations. This study revealed that the investigated compounds (13) are highly fluorescent molecules (ΦF = 0.20.9) with lifetimes in the range 28 ns. The compounds exhibit weak hypsochromic solvatochromic changes in the absorption and large batochromic shifts in the fluorescence spectra. An increase in solvent polarity does not induce a reduction of the fluorescence quantum yields, but causes a lengthening of the fluorescence lifetimes. The Density Functional Theoretical calculations predicted similar energies for S1 and S2, probably resulting in the state mixing and ICT character of the relaxed S1 state. Furthermore, the computed dipole moments have been found to be higher in the excited with respect to the ground state, in agreement with the strong solvatochromic properties experimentally observed in the emission spectra. Ultrafast transient absorption measurements indicated the existence of three decay components assigned to the hot Franck-Condon S1 state that undergoes vibrational cooling (VC, several picoseconds), the species formed by VC undergoing a torsional motion of the CC bond between the phenyl and the pyrrole ring (several hundreds of picoseconds), and the relaxed S1 state that decays radiatively (nanoseconds). Indeed, the calculated optimized geometry of 13 in the ground state is characterized by a dihedral angle between the pyrrole and phenyl moieties of about 1025 degree, whereas the S1 state is predicted to be more planar than S0. Due to the fast population of the relaxed S1 states, the typical dual fluorescence reported for N-phynylpyrroles was not observed for 1-3.
Cyanophenylpyrroles; DFT calculations; Excited state charge transfer; Fluorescence spectroscopy; Photophysics; Solvatochromic properties; Ultrafast transient absorption
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Podaci o izdanju
299
2015.
94-102
objavljeno
1010-6030
10.1016/j.jphotochem.2014.11.016