Rs. Becker et al., COMPREHENSIVE INVESTIGATION OF THE SOLUTION PHOTOPHYSICS AND THEORETICAL ASPECTS OF OLIGOTHIOPHENES OF 1-7 RINGS, Pure and applied chemistry, 67(1), 1995, pp. 9-16
Photophysical (phi(F), tau(F), phi(T), tau(T)), absorption S(O) --> S(
X) and T(I) --> T(x)) and emission (fluorescence and phosphorescence)
have been evaluated for thiophene (n=1) and oligothiophenes (n=2-5, 7)
. In addition k(F), k(IC) and k(ISC) have been evaluated for n=2-5, 7.
In general phi(F) increases from n=2 to 5 and becomes constant (n=5-7
) whereas phi(T) decreases overall from n=2,3 (nearly same) to constan
cy at n=5, 7. The k(ISC) progressively decreases and k(F) remains appr
oximately constant as n increases from n=3 to 7. The tau(F) progressiv
ely gets longer while tau(T) gets shorter as n increases and both beco
me constant at n=5, 7. Based on k(F) (or tau-degrees(F) and other data
, it is clear that the 1B-type state is always below the 1A-type state
fron n=2 to and including n=7, in contrast to other existing predicti
ons (for n=6 and greater). Although fluorescence exists for all compou
nds, except thiophene, no phosphorescence has been observed (phi(P) le
ss-than-or-equal-to 5 x 10(-4)), except thiophene. Mechanisms rational
izing the photophysical behavior are given.