Selective detection of sub-1-ppb level isoprene using Pd-coated In2O3 thin film integrated in portable gas chromatography

Selective detection of sub-1-ppb level isoprene using Pd-coated In2O3 thin film integrated in portable gas chromatography

[Display omitted] •We report on a breath-isoprene analyzer based on a gas chromatography column with catalyst-coated In2O3 thin films.•We found that Pd-coated In2O3 thin films were superior to Au- and Pt-coated films.•The analyzer was able to selectively detect isoprene in air within 2 min at 196 °C...

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Bibliographic Details
Published in:Applied surface science Vol. 586; p. 152827
Main Authors: Jung, Hwaebong, Min, Hyegi, Hwang, Junho, Kim, Jihee, Choe, Yong-Sahm, Lee, Hyun-Sook, Lee, Wooyoung
Format: Journal Article
Language:English
Published: Elsevier B.V 01-06-2022
Subjects:
Breath isoprene analyzer
Gas chromatography
Metal catalyst
Pd-coated In2O3 thin film
Selectivity
Gas chromatography
Selectivity
Pd-coated In2O3 thin film
Breath isoprene analyzer
Metal catalyst
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Summary:[Display omitted] •We report on a breath-isoprene analyzer based on a gas chromatography column with catalyst-coated In2O3 thin films.•We found that Pd-coated In2O3 thin films were superior to Au- and Pt-coated films.•The analyzer was able to selectively detect isoprene in air within 2 min at 196 °C.•The detection limit was 0.4 ppb, which is the lowest level reported to date.•Our study demonstrates that the analyzer can be utilized to rapidly and accurately detect isoprene in breath. Monitoring breath isoprene concentration plays a role in non-invasive diagnosis of blood-cholesterol levels. In this study, we developed a highly sensitive and selective isoprene analyzer based on a Pd-coated In2O3 thin film integrated in a miniaturized gas chromatography column. To improve the sensing performance, the In2O3 thin films were fabricated with high uniformity and crystallinity using a dual-ion-beam sputtering system, and various metal catalysts (Au, Pt, and Pd) were loaded on the film surface. Among them, the Pd catalyst afforded the highest sensing reaction and the lowest detection limit (approximately 0.4 ppb), which is the best performance ever reported. It also significantly lowered the optimal operating temperature of the sensor from 432 °C to 196 °C. The excellent isoprene sensing performance of the Pd-coated In2O3 film can be attributed to the high density of oxygen vacancies, efficient reduction-reoxidation of PdO, and the Mars-van-Krevelen catalytic reaction. We further optimized the isoprene sensing performance of a Pd-coated In2O3 film by varying the Pd thickness and discovered that 1 nm of Pd deposition showed the optimal status of discontinuous islands for sensing. We expect that our device can be applied to a portable breath isoprene analyzer.
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2022.152827