Abstract
Estimation of the influence of molecular substituents on electroluminescence and electron–hole mobility in copolyfluorenes with the use of a CELIV technique has revealed that minor changes in the number of benzothiadiazole fragments in copolyfluorenes has a dramatic effect on the optoelectronic properties of these polymers to improve the electroluminescence and electron mobility by factors of 20 and 10, respectively.
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