Thermochromism of bithiophenes and internal aromatic chain rotation

The relation between thermochromism and thermal motion of aromatic rings on model bithiophene and 3-butylbithiophene molecules was studied by molecular dynamics (MD) simulations based on semiempirical AM1 hamiltonian. Theoretical optical spectra at various temperatures are generated from the conformations obtained from MD calculations. Alkyl chains have a tendency to tilt bithiophene fragments from co-planarity (connected with blue shift) whereas the unsubstituted systems prefer the higher degree of planarity (connected with red shift) upon the temperature increase. The slope of the linear temperature dependence of the reciprocal maximal wavelengths consists of the above electronic and of the vibrational contribution that (according to Wien's displacement law) causes always the increase of the above mentioned slope by reciprocal Wien's constant. This model explains the temperature dependence of experimental UV-vis spectra for dibutylheptathiophene and 3′,3⁗,4′,4⁗-tetrahexylhexathiophene.