Acetylene gas sensing properties of an Ag-loaded hierarchical ZnO nanostructure-decorated reduced graphene oxide hybrid

Acetylene (C2H2) gas sensors were developed by synthesizing an Ag-loaded hierarchical (Hrc) ZnO nanostructure-reduced graphene oxide (Ag/ZnO Hrc-RGO) hybrid using a facile and rapid photochemical method. Morphological characterizations showed the formation of well-dispersed Ag nanoparticles-loaded hierarchical ZnO nanostructures onto the 3- to 5-layer thick RGO sheets. The hierarchical ZnO nanostructures were composed of numerous randomly oriented porous ZnO nanosheets with an average sheet thickness of 6 nm. It was also observed that Ag nanoparticles with an average diameter of 40 nm were closely affixed onto the ZnO nanosheets. Structural analysis revealed good agreement with the standard crystalline phases of ZnO, Ag and RGO. Gas-sensing characteristics of the synthesized materials were carried out in a temperature range of 25-300 degrees C at different C(2)H(2)gas concentrations. At 200 degrees C, 5 wt% Ag/ZnO Hrc-RGO hybrid showed a preferable detection of vwith high sensor response (12.3 toward 100 ppm), fast response time (57 s), a limit of detection (LOD) of 3 ppm, good linearity, with excellent reproducibility and selectivity. The fabricated sensor also showed less humidity effect in an open airenvironment. (C) 2015 Elsevier B. V. All rights reserved.