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Preparation of robust and <scp>light‐weight</scp> anisotropic polyimide/graphene composite aerogels for strain sensors

Shuai Zheng, Lei Jiang, Fan Chang, Changqi Zhang, Ning Ma, Xueqiang Liu

2023Polymers for Advanced Technologies17 citationsDOI

Abstract

Abstract This study reports the fabrication of a serious of anisotropic composite aerogels comprising polyimide and graphene (PI/G) through a simple and eco‐friendly technique. Poly(amic acid) ammonium salt/graphene dispersion, which was produced through the mixture of poly(amic acid), graphene aqueous dispersion, triethylamine, and water, was utilized in the process of creating PI/G composite aerogels employing unidirectional freezing, freeze‐drying, and thermal imidization. The PI/G aerogels displayed anisotropic mechanical properties, thermal insulation, and electrical conductivity. The PI/G aerogels with an anisotropic microstructure demonstrated notable rigidity and a high compressive modulus (52.7 MPa) along the axial direction, while displaying favorable flexibility and a low modulus (18.2 MPa) along the radial direction. Furthermore, the PI/G aerogel exhibited anisotropic thermal conductivity (axial: 64 mW m −1 K −1 ; radical: 55 mW m −1 K −1 ). These properties enable the PI/G aerogel to have a wider range of potential applications, especially strain sensors. The research presented herein establishes a simple and eco‐friendly strategy for the production of anisotropic PI/G‐based composite aerogels.

Topics & Concepts

Materials scienceAerogelPolyimideGrapheneComposite numberComposite materialAnisotropyThermal conductivityNanotechnologyLayer (electronics)OpticsPhysicsAdvanced Sensor and Energy Harvesting MaterialsAerogels and thermal insulationGas Sensing Nanomaterials and Sensors
Preparation of robust and <scp>light‐weight</scp> anisotropic polyimide/graphene composite aerogels for strain sensors | Litcius