Highly selective real-time detection of breath acetone by using ZnO quantum dots with a miniaturized gas chromatographic column

Highly selective real-time detection of breath acetone by using ZnO quantum dots with a miniaturized gas chromatographic column

•We developed a portable breath acetone analyzer with high sensitivity and selectivity.•The analyzer based on a sensor integrated with ZnO quantum dots and a miniaturized GC column.•The analyzer can analyze a wide range of acetone concentrations without pre-concentration.•The analyzer can be used fo...

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Bibliographic Details
Published in:Sensors and actuators. B, Chemical Vol. 274; pp. 527 - 532
Main Authors: Jung, Hwaebong, Cho, Wonhee, Yoo, Ran, Lee, Hyun-sook, Choe, Yong-Sahm, Jeon, Justin Y., Lee, Wooyoung
Format: Journal Article
Language:English
Published: Lausanne Elsevier B.V 20-11-2018
Elsevier Science Ltd
Subjects:
Acetone
Breath acetone
Chemical synthesis
Chromatography
Diet
Gas chromatography
Mini sampling volume
Miniaturized gas chromatography column
Organic chemistry
Quantum dots
Real-time detection
Volume
Zinc oxide
ZnO quantum dot
Miniaturized gas chromatography column
QD
EDS
FFT
Breath acetone
SEM
Mini sampling volume
Real-time detection
GC
TEM
ZnO quantum dot
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Summary:•We developed a portable breath acetone analyzer with high sensitivity and selectivity.•The analyzer based on a sensor integrated with ZnO quantum dots and a miniaturized GC column.•The analyzer can analyze a wide range of acetone concentrations without pre-concentration.•The analyzer can be used for the analysis of small volumes of human breath (1 ml).•The analyzer was used to perform breath analysis on volunteers who were on a ketogenic/normal diet. In this study, we developed a breath acetone analyzer based on a miniaturized gas chromatography (GC) column integrated with ZnO quantum dots (QDs); this analyzer is capable of analyzing a wide range of breath acetone concentrations within 2 min using a small volume (1 ml) of human breath without pre-concentration. The average size of the ZnO QDs, which were synthesized by a wet chemical method, was approximately 6 nm. The developed analyzer could detect acetone concentrations as low as 0.1 ppm. The response of the ZnO QDs increased with increasing acetone concentration and was strongly correlated with the concentration (R2 = 0.9915). The miniaturized GC column effectively separated acetone from the breath. In addition, a preliminary testing of the breath acetone analyzer was performed through the breath analysis of volunteers who were on ketogenic and normal diets. The results showed that the acetone content in the breath of the volunteer who was on a ketogenic diet for three days was 1.2 ppm.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2018.07.144