Yingjin Pei scite author profile

Solvothermally reduced graphene oxide (SRGO)/polyimide (PI) composites were prepared by in situ polymerization. The structures and components were carefully investigated by X-ray diffraction. Thermal properties were measured by thermogravimetry and dynamic thermomechanical analysis. Mechanical properties were carefully evaluated by tensile testing and scanning electron microscopy. The SRGO/PI composites exhibit extremely high tensile strength and elastic modulus, which is 30% higher than that of pure PI film. Meanwhile, the thermal stability of SRGO/PI composites also displays an obvious enhancement.

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Improving of the structures and properties of functional polyimide films by direct blend method

Niu

Shi

Pei

et al. 2022

J of Applied Polymer Sci

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Triphenylamine (TPA)-based polyimides (PIs) have excellent discoloration characteristics and widely used as functional films. However, these PIs usually exhibit lower mechanical and thermal properties, and TPA units as the electron donor also weaken the optical transmittance of PIs. Utilized blending with diaminodiphenyl ether (ODA)-based PIs, we successfully prepared the blend polyimide (BPI) films containing ODA/TPA units, to realize complementary advantages of excellent mechanical, thermal, optical, and electrochemical properties. Among them, the tensile strength of BPI-53 film (mole ratio of TPA/ODA = 5:3) is reached up to 105.5 MPa, which is 641.9% much higher than 14.22 MPa of TPA-PI film. Moreover, the thermal stability of BPI-53 film is also significantly improved. T 5 (temperature of 5% weight loss) can be increased to 548.26 C for BPI-53 film, and the weight residual rate at 800 C in N 2 atmosphere is increased by an addition of 4%. Besides, BPI-53 film also has good transmittance property in district of 400-700 nm, and the variation range of transmittance under 1.0 V positive bias voltage is of 36.61%. For the electrochromics, the discoloration properties of blend polyamide acid (BPAA) dry film can be well maintained.

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Yingjin Pei

Fabrication, structural evolutions and properties of large-area orientation reduced graphene oxide films by self-assembly at the air–water interface and thermal treatment

Preparation, structures and properties of interpenetrating network structure-type Phosphate/PEEK composites with enhanced compressive strength and high temperature resistance

Preparation, structures and properties of Phosphate/S-PEEK hybrid composites utilized sintering Al(OH)3 particles as curing agents

Solvothermally reduced graphene oxide/polyimide composites: Structures and thermal and mechanical properties

Improving of the structures and properties of functional polyimide films by direct blend method

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