Fabrication of solution-processed flexible resistive gas sensors based on carbon-quantum-dots decorating mesoporous ZnO fibres for room temperature sensing

In recent years, the gas sensor technology has experimented an interesting growth due to the device improvements driven by nanostructured semiconductor films. Nanostructured sensors have enabled the possibility of reducing the operation temperature at room temperature levels, which implies a significant reduction on the power consumption, as well as the possibility to develop sensors over flexible substrates. Therefore, in this work, the fabrication of flexible gas sensors using solution-processing technologies is presented. Nanostructured ZnO mesoporous fibres decorated with Carbon-Quantum-Dots has been used as active layer, and the electrical response, measured as the ratio between the resistance at the target gas respect the resistance in air, is presented. Furthermore, interdigitated electrode configuration has been used for device fabrication with finger spacing of 0.2, 0.4 and 0.6 mm. A maximum response of 0.016 was achieved.