Selective C2H2 detection with high sensitivity using SnO2 nanorod based gas sensors integrated with a gas chromatography

Authors
Lee, Jun HoPark, Min SunJung, HwaebongChoe, Yong-SahmKim, WonkyungSong, Young GeunKang, Chong-YunLee, Hyun-SookLee, Wooyoung
Issue Date
2020-03-15
Publisher
ELSEVIER SCIENCE SA
Citation
SENSORS AND ACTUATORS B-CHEMICAL, v.307
Abstract
We report on the sensitive and selective sensing properties of SnO2 nanorods (NRs) based gas sensors coupled with a miniature gas chromatography (mini-GC) system for the detection of acetylene. The SnO2 NRs were fabricated by a glancing angle deposition (GLAD) method and their average height and diameter were similar to 200 nm and similar to 30 nm, respectively. In order to overcome a selectivity issue of metal oxide semiconductor gas sensors, we integrated our SnO2 NRs based sensors with a packed column. The device accurately and selectively detected acetylene within 2 min (similar to 120 s). We found that loading a thin layer (5 nm) of metal catalysts such as Au, Pt or Pd increases the sensing abilities of the SnO2 NRs sensors. Among the tested sensors, the Pd-coated SnO2 NRs sensor (Pd-SnO2 NRs) exhibited the best sensing performance for the detection of 10 ppm of acetylene and the lower detection limit of 0.01 ppm. The superior sensing properties of Pd-SnO2 NRs are due to the large amount of oxygen deficiencies on the surface of Pd-SnO2 NRs, which acts as reactive sites. More importantly, the mini-GC device can be used to selectively detect 10 ppm of acetylene from other gases such as H-2. Our findings demonstrate that Pd-SnO2 NRs integrated with a mini-GC device can be utilized to monitor the dissolved acetylene gas in transformer oil in real time.
Keywords
SENSING PROPERTIES; MICROSTRUCTURES; ACETONE; SYSTEM; SENSING PROPERTIES; MICROSTRUCTURES; ACETONE; SYSTEM; Acetylene gas sensor; SnO2 nanorod array; Metal catalyst; Miniaturized gas chromatography; Dissolved gas analysis; Transformer oil
ISSN
0925-4005
URI
https://pubs.kist.re.kr/handle/201004/118850
DOI
10.1016/j.snb.2019.127598
Appears in Collections:
KIST Article > 2020
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