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Synthesis and growth mechanism of ZnO nanocandles using thermal evaporation and their efficient CO sensing performance

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MICRO AND NANOSTRUCTURES
卷 184, 期 -, 页码 -

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ACADEMIC PRESS LTD- ELSEVIER SCIENCE LTD
DOI: 10.1016/j.micrna.2023.207692

关键词

ZnO nanocandles; ZnO nanorods; Thermal evaporation; Oxygen ambient; CO gas sensing

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We report on the efficient CO gas sensing application of single-step grown ZnO nanocandles without adding any catalyst. A simple, scalable, and cost-effective thermal evaporation technique was employed for the growth of ZnO nanostructures on alumina substrate at 600 degrees C. The shape and size of the ZnO nanostructures were strongly influenced by the oxygen ambient. The CO gas sensing performance of the synthesized samples was analyzed, and the nanocandles showed the highest sensor response and shortest response/recovery time.
We report on the single step grown ZnO nanocandles without adding any catalyst for efficient CO gas sensing application. A simple, scalable, and cost-effective thermal evaporation technique was employed for the growth of ZnO nanostructures on alumina substrate at 600 degrees C. It was observed that oxygen ambient (variation in oxygen flow rates from 20 to 40 sccm) strongly influences the shape and size of the ZnO nanostructures (i.e., the formation of nanocandles or nanorods). The as grown ZnO nanostructures were characterized using various techniques such as X-ray diffraction, Field emission scanning electron microscopy, photoluminescence, and X-ray photoelectron spectroscopy. Further, a comprehensive analysis of the CO gas sensing performance of each sample was recorded under various conditions, and the corresponding mechanism was reported. We have achieved the maximum sensor response (SR%) similar to 78.3% along with a response/recovery time similar to 59.5 s/109.4 s towards 91 ppm of CO gas at 400 degrees C for the sample synthesized at 40 sccm oxygen gas flow rate (i.e., for nanocandles). While, a relatively lower SR similar to 70.1% and similar to 64.1% and higher response/recovery time of similar to 77.8 s/118.6 s and similar to 84.6 s/122.1 s were obtained for the samples synthesized at 30 sccm and 20 sccm, respectively (i.e., for nanorods). Moreover, the calculated detection limit for ZnO nanocandles was 110 ppb. The selectivity test shows that the ZnO nanocandles are highly responsive to CO gas and exhibits long term stability (tested over 360 days). Thus, ZnO nanocandles can be used for the fabrication of robust CO gas sensors.

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