Photoindueed Intramolecular Charge Transfer in Push-Pull Polyenes:Effects of Solvation,Electron-Donor Group,and Polyenic Chain Length

摘要

Subpicosecond absorption spectroscopy is used to characterize the primary photoindueed processes in a class of push-pull polyenes bearing a julolidine end group as the electron donor and a diethylthiobarbituric acid end group as the electron acceptor.The excited-state decay time and relaxation pathway have been studied for four polyenes of increasing chain length in = 2-5 double bonds) in aprotic solvents of different solvation time,polarity,and viscosity.Intramolecular charge transfer (ICT) leading to a transient state of cyanine-like structure (fully conjugated with no bond length alternation) is observed in all polar solvents at a solvent dependent rate,but the reaction is not observed in cyclohexane,a nonpolar solvent.In polar solvents,the reaction time increases with the average solvation time but remains slightly larger,except in the viscous solvent triacetin.These facts are interpreted as an indication that both solvent reorganization and internal restructuring are involved in the ICT-state formation.The observed photodynamics resemble those we previously found for another class of polyenes bearing a dibutylaniline group as the donor,including a similar charge-transfer rate in spite of the larger electron donor character of the julolidine group.This observation brings further support to the proposal that an intramolecular coordinate is involved in the charge-transfer reaction,possibly a torsional motion of the donor end group.On the other hand,relaxation of the ICT state leads to cis-trans isomerization or crossing to the triplet state,depending on the length of the polyenic chain.In dioxane,tetrahydrofuran,and triacetin,the ICT state of the shorter chains (n - 2,3) relaxes to the isomer with a viscosity-dependent rate,while that of the longer ones (n = 4,5) leads to the triplet state with a viscosity-independent rate,as expected.In acetonitrile,the ICT-state lifetime is generally much shorter.A change from photoisomerization to intersystem crossing at n = 4 is also proposed in this solvent,but the formation of a photoproduct at n = 2 is not clear.In cyclohexane,where the ICT state is not formed,the relaxation pathway of the initially excited state is found to lead to an isomer for n = 2.As in polar solvents,a change to intersystem crossing at n = 4 is proposed.The direct relaxation to the ground state found at n = 3 for the series bearing a dibutylaniline group is not observed with the julolidine group.The results clearly illustrate that photoindueed reaction trajectories in push-pull polyenes are controlled by the static and dynamic properties of the solvent,the chemical nature and size of the end groups,and the conjugated-chain length and flexibility.