Journal
OPTICAL FIBER TECHNOLOGY
Volume 81, Issue -, Pages -Publisher
ELSEVIER SCIENCE INC
DOI: 10.1016/j.yofte.2023.103525
Keywords
Zinc oxide-titanium dioxide(ZnO-TiO2); Au-Pd; ZnO nanorod; TiO2 dopant; Acetone gas
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This paper investigates the influence of titanium dioxide on zinc oxide nanorods coated on a fiber for gas detection. The addition of Au-Pd thin film improves the sensitivity of the sensor. The results show that the sensor with TiO2 nanorods decorated with Au-Pd thin films demonstrates notable sensitivity and stability for detecting acetone gas at low temperatures.
This paper presents the influence of titanium dioxide (TiO2) as a catalyst to the zinc oxide (ZnO) nanorods coated on the tapered MMF fiber utilized as a sensing layer for the detection of acetone gas at low temperatures. To enhance the sensitivity of the sensor ZnO-TiO2 nanorods were decorated with Au-Pd film. Hydrothermal method was used to synthesize the ZnO nanorods while TiO2 powder was incorporated by using a simple doping pro-cedure during fabrication. The decoration of the Au-Pd thin films is integrated with the ZnO-TiO2 by using DC sputtering method. The ZnO doped with 15 mM TiO2 shows a strong and significant peak based on XRD analysis which can be indexed to the hexagonal phase of ZnO. A few globular structures of TiO2 were randomly distributed as observed by the SEM image. Four different fiber sensing layers were prepared with respect to 10 mM ZnO precursor; ZnO nanorods (ZN), ZnO nanorods decorated with Au-Pd thin films (ZNAP), ZnO-15 mM TiO2 nanorods (ZTN) and ZnO-15 mM TiO2 nanorods decorated with Au-Pd thin films (ZTNAP). The spec-trometry setup was used to measure the response of the sensor toward different concentrations of acetone gas in terms of intensity with respect to its wavelength. Notable output intensity responses were observed for ZTNAP in terms of sensitivity and standard deviation towards various acetone concentrations while the repeatability curve showed a high response of acetone gas at 10,000 ppm. All experiments were performed at the low temperature of 87 degrees C.
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