Spectral
properties and morphologies of 1,1′-disulfobutyl-3,3′-diethyl-5,5′,6,6′-tetrachlorobenzimidazolylcarbo-cyanine
(TDBC) J-aggregates formed in two different types of polymer films
(neutral spin-coated and charged layered) were studied using steady-state,
picosecond, and femtosecond spectroscopies as well as optical and
atomic force microscopies. It was found that the J-aggregates adopt
different morphologies in the films: quasi one-dimensional rod-like
in the spin-coated films and two-dimensional island-like in the layered
films. The TDBC J-aggregates exhibit very similar absorption and fluorescence
spectra in different films, but their fluorescence lifetimes and quantum
yields differ strongly (∼4% for spin-coated films and ∼0.5%
for layered films). By pump-probe spectroscopy, three different contributions
to the population dynamics and relaxation to lower lying levels are
identified with exciton–exciton annihilation dominating the
observed kinetics. Low-temperature experiments reveal strong exciton
self-trapping in the J-aggregates due to large exciton–phonon
coupling. However, the different morphologies of the TDBC J-aggregates
in the films result in different behaviors of exciton self-trapping.
While in spin-coated films barrierless self-trapping is dominant,
in layered films it is associated with overcoming an energy barrier.
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