Graphene nanosheet/Cu nanowire composite aerogel with a thin PDMS coating for electrically conductive pressure sensing rubber

Abstract

Electrically conductive rubber is considered as one of the promising materials in the fields of energy storage devices, electromagnetic shielding, and smart sensors. However, narrow variable resistance range, limited electrical conductivity, and poor mechanical properties are the most important technical challenges for current conductive rubbers. Herein, 3-D conductive graphene nanosheet/Cu nanowire/PDMS (GCuP) composite rubbers with enhanced mechano-electrical properties were presented for the novel piezoresistive pressure sensors. Excitingly, these GCuP rubbers possessed the better sensitivity, conductivity, and mechanical properties than GR rubbers, due to the presence of highly conductive Cu nanowiresandthe protective effect of thin PDMS coating. The proposed GCuP (1.5:1) rubber showed that the resistance decreased from 5600 Ω to 32 Ω when the deformation increased from 0% to 50%. Furthermore, the three main composite materials effectively improved the oxidation resistance (stable at 120 °C) of the GCuP rubbers by their synergistic effects.