posted on 2014-10-28, 00:00authored byXu Yang, Seogjae Seo, Chihyun Park, Eunkyoung Kim
A π-conjugated polymer of propylenedioxythiophene-phenylene
(ProDOT-Ph) with a chiral alkyl substituent on the propylene bridge
of ProDOT was prepared to explore reversible multiswitching chiral
conjugated polymers (CCPs) capable of electrochromic, electrofluorochromic,
and chirality switching. The chiral assembly of the yellow colored
poly(ProDOT-Ph)s (YPCr) was optimized by annealing the YPCr films
at 120 °C. From the thermally annealed YPCr films, we demonstrated
the electrical switching of chirality, color, and fluorescence in
a single device, for the first time, which was precisely controlled
electrochemically to achieve highly efficient and reversible switching
of chiral assembly at a low working potential. The YPCr films showed
electrochromism with a high coloration efficiency of 690 cm2 C–1 by changing color between yellow and blue.
The film also exhibited fluorescence switching with a quantum yield
change from 3.8 to 0.21 during the reversible electrochemical switching.
The chirality of the YPCr, which showed a negative bisignate Cotton
effect, was switched reversibly with 97% change in the anisotropy
factor (gabs). The multiswitching properties
were correlated to the electrochemical switching in chiral assembly
of conjugated polymers according to the electrochemical doping/dedoping
process. To the best of our knowledge, the change in Cotton effect
during the switching is the highest reported value of a chirality
tunable polymer without any chiral inducer. In addition, the YPCr
showed a sustainable memory effect for both chirality and coloration.