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Carbon Fiber/Methyltrimethoxysilane/Graphene Composite Aerogel for High-Strength Strain Sensors

Chenyang Zhang, Jiahang Su, Chuanying Yao, Shengjiong Nie, Zelin Zhou, Zhenyu Li

2024ACS Applied Nano Materials11 citationsDOI

Abstract

Because of their special physical characteristics, graphene aerogels have been produced for sensing applications; nevertheless, their lack of mechanical features prevents them from being used further. In this study, a hydrophobic carbon-fiber and methyltrimethoxysilane-reinforced graphene composite aerogel (aCF-MGA) with a three-dimensional interconnected hierarchical microstructure was designed and developed by a freeze-drying process with a distinct honeycomb structure. Methyltrimethoxysilane (MTMS) and graphene oxide (GO) create a dense interlayer porous network and solid-layered structure through covalent cross-linking and hydrogen bonding. Because alkali-treated carbon fiber (aCF) offers strong mechanical support, aCF-MGA aerogel has exceptional mechanical qualities and a distinctive “porous honeycomb” structure. The aCF-MGA aerogel-based sensor is capable of detecting a wide range of motion signals in compression, because of the synergistic effect of multiple substances. It has a high sensitivity of 27.34 kPa –1 and excellent properties like ultrahigh elasticity, ultralight density (4.5 mg/cm 3 ), highly conductive (2.85 S/cm), high fatigue compression resistance (10,000 cycles), extremely short response time (96 ms), and short relaxation time (68 ms). This enables them to detect a variety of motion signals and implies that the aCF-MGA aerogel may find use in human–machine interaction and sports health monitoring as a possible material for wearable protection devices and piezoresistive sensors.

Topics & Concepts

AerogelMethyltrimethoxysilaneMaterials scienceComposite materialGrapheneComposite numberCarbon fiber compositeNanotechnologyCoatingAdvanced Sensor and Energy Harvesting MaterialsGas Sensing Nanomaterials and SensorsAerogels and thermal insulation