Abstract
This study explores the fabrication and evaluation of a flexible NO2 sensor based on a tungsten trioxide nanoparticle-loaded, multi-walled carbon nanotube, reduced graphene oxide hybrid (WO3 NP-loaded MWCNT-RGO) on a polyimide/polyethylene terephthalate (PI/PET) substrate. A viscous gel of the hybrid materials was prepared using ce.-terpineol. The fabricated sensor exhibits excellent NO2 sensing with a maximum response of 17% to 5 ppm, a limit of detection (LOD) of 1 ppm, and relatively short response/recovery time (7115 min). The mechanical robustness of fabricated sensor was evaluated systematically at different curvature angles (0-90 degrees) and after various times bending/relaxing (up to 10(7)). The sensor exhibits excellent mechanical flexibility and sensing properties at room temperature without significant performance degradation, even at a curvature angle of 90 degrees and after 10(6) cycles of the bending/relaxing process. These results and the economical, light-weight and mechanically-robust features indicate that the proposed WO3 NPs-MWCNTs-RGO hybrid sensor is a promising building block for the development of high-performance, flexible NO2 sensors. (C) 2015 Elsevier B.V. All rights reserved.