Abstract
The spectroscopic and photophysical behavior of a series of six extended arylacetylenes and one 1,3-diyne derivative was studied in solvents of different polarity to gain insight into the relationships between molecular architecture and optical/photophysical properties. The radiative decay channel was revealed to be the most important one for all the compounds, particularly in nonpolar solvents. A notable fluoro-solvatochromism was observed for the 1,3-diyne derivative in line with the large increase of its dipole moment under excitation. A peculiar behavior was observed for nitro-substituted aryl acetylenes on increasing solvent polarity, which was explained by the presence of an upper forbidden singlet state (S2 ) that is more polar than the allowed S1 state; this was confirmed by quantum mechanical calculations. The large decrease of the S2 -S1 energy gap in a moderately polar solvent causes a strong increase of S1 -S0 internal conversion to the detriment of fluorescence, which is in agreement with Lim's proximity effect model.
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