Flexible thin films based on poly(ester imide) materials for optoelectronic applications

A series of high-performance poly(ester imide)s bearing cycloaliphatic moieties was manufactured by a two-step procedure via solution polycondensation of an aromatic-aliphatic dianhydride containing preformed ester units and cyclohexanone ring in the main chain, with various aromatic diamines. The new dianhydride monomer, namely 2-oxocyclohexane-1,3-bis[4,4 '-bis(trimellitate)benzylidene] dianhydride, was synthesized by the reaction between 2,6-bis(4-hydroxybenzylidene)cyclohexanone and trimellitic anhydride chloride. The chemical structure of the resulting dianhydride was confirmed by means of Fourier transform infrared, H-1 NMR and C-13 NMR spectroscopies. The poly(ester imide)s from the series exhibited water uptake capacity in the range 3.45-10.09%. The onset temperatures, corresponding to the first detected thermal weight loss in the samples, ranged from 367 to 441 degrees C. Besides the cycloaliphatic moieties coming from the dianhydride monomer, the other aliphatic segments present in the diamine structures were responsible for improved optical performance in the resulting poly(ester imide)s, the transmittance being higher than 80% at 684 nm. (c) 2021 Society of Industrial Chemistry.

Automated summary

A series of high-performance poly(ester imide)s bearing cycloaliphatic moieties were manufactured by a two-step procedure via solution polycondensation, with the chemical structure of the new dianhydride monomer confirmed. The resulting materials exhibited water uptake capacity and improved optical performance.