Add time:08/03/2019         Source:sciencedirect.com

New azo-polymer structures, with azo content ranging from 15% to ≈100%, are prepared by attaching a side-chain azo-moiety onto poly(isopropenyloxazoline-co-styrene)s and poly(isopropenyloxazoline). Postcoupling conditions are determined by kinetic investigations. Polymer compositions are evaluated from UV, 1H NMR, titrimetry and elemental analysis. Chemical modification of polymers is evidenced by FTIR and 1H NMR spectroscopy. Thermal analysis sustain that azobenzene loads up to 0.67 M ratio result in an increase of Tgs, and that the azo dye content dictates the thermal stability of the modified copolymers. Both solution and solid-state trans–cis–trans isomerization kinetics are conducted. Cis-to-trans thermal relaxation rate constants of azo-polymers increase compared to the model compound used in solution measurements. Also, distinct relaxation mechanisms are assessed, as a function of solvents polarity and temperature for both polymers and model compound. For the azo-polymer thin films, the lifetime of cis isomers is tuned from polymer composition (dye load) to exhibit slow or fast relaxation.

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