Litcius/Paper detail

High glass transition temperature and ultra‐low thermal expansion coefficient polyimide films containing rigid pyridine and bisbenzoxazole units

Feng Luo, Chengjiang Lin, Long Jiao, Zhijun Du, Zhixin Dong, Xuemin Dai, Xiaozheng Duan, Xuepeng Qiu

2023Journal of Polymer Science16 citationsDOI

Abstract

Abstract Polyimide (PI) films with extremely high heat‐resisting and dimensional stability are ideal substrate materials for flexible organic light‐emitting diodes. In this study, three diamines containing rigid bisbenzoxazole structures, 2,2′‐ p ‐phenylenebis(5‐aminobenzoxazole) (phDBOA), 2,2′‐ m ‐pyridylenebis(5‐aminobenzoxazole), and 2,2′‐ p ‐pyridylenebis(5‐aminobenzoxazole) ( p ‐PDBOA ), were polymerized with 3,3′,4,4′‐biphenyl tetracarboxylic dianhydride and pyromellitic dianhydride (PMDA) separately with traditional two‐step approach to prepare a set of PI films. Introduction of bisbenzoxazole improves stiffness of molecular chain, whereas that of pyridine increases in‐plane orientation and molecular chain tend to be densely stacked. Among prepared films, PI‐6 (PMDA/ p ‐PDBOA) shows the most excellent mechanical properties, with an ultra‐high glass transition temperature of >450°C, an ultra‐low thermal expansion coefficient of <5 ppm K −1 (50–450°C), a tensile strength of 259 MPa, and a modulus of 8.3 GPa. Given these excellent properties, PI‐6 could be applied in flexible display.

Topics & Concepts

Pyromellitic dianhydridePolyimideGlass transitionMaterials scienceThermal expansionThermal stabilityPolymer chemistryUltimate tensile strengthPyridineThermal decompositionComposite materialPolymerChemistryOrganic chemistryLayer (electronics)Synthesis and properties of polymersEpoxy Resin Curing ProcessesOrganic Electronics and Photovoltaics