Development of a High-Density Microplasma Emission Source for a Micro Total Analysis System

To achieve a highly sensitive and onsite analysis of a small amount samples, a microplasma-based micro total analysis systems (μ-TAS) device was developed. A dielectric barrier discharge (DBD) that can generate a stable plasma at atmospheric pressure was generated in a microchip and used as the plas...

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Published inAnalytical Sciences Vol. 33; no. 4; pp. 505 - 510
Main Authors KAKEGAWA, Ken, HARIGANE, Ryoto, AIDA, Mari, MIYAHARA, Hidekazu, MARUO, Shoji, OKINO, Akitoshi
Format Journal Article
LanguageEnglish
Published Singapore The Japan Society for Analytical Chemistry 2017
Springer Nature Singapore
Japan Science and Technology Agency
Subjects
Analytical Chemistry
atmospheric plasma
Atmospheric pressure
atomic emission spectroscopy
Chemistry
Electrodes
Emissions
gas analysis
Helium
Helium plasma
micro plasma
Micro total analysis systems
Microchannels
Microplasmas
Plasma
Semiconductors
Temperature effects
μ-TAS
μ-TAS
atmospheric plasma
atomic emission spectroscopy
gas analysis
micro plasma
Micro total analysis systems
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Abstract To achieve a highly sensitive and onsite analysis of a small amount samples, a microplasma-based micro total analysis systems (μ-TAS) device was developed. A dielectric barrier discharge (DBD) that can generate a stable plasma at atmospheric pressure was generated in a microchip and used as the plasma source. The use of DBD suppresses the temperature rise of the electrodes and enables operation for long times because of a reduction of the electrode damage due to suppression of the current via dielectric interposing between the electrodes. It is expected that the analytical system can be miniaturized because helium plasma is generated in the microchannel contained in the microchip. Emissions from gaseous Cl, Br, and I were analyzed using the plasma source, and it was found that the detection limits for these analytes were 0.22, 0.18, and 0.14 ppm, respectively. The calibration curves for gaseous Cl, Br, and I were also plotted obtaining correlation coefficients of 0.975, 0.955 and 0.986, respectively, and showing good linearity for the developed plasma source.
AbstractList To achieve a highly sensitive and onsite analysis of a small amount samples, a microplasma-based micro total analysis systems (μ-TAS) device was developed. A dielectric barrier discharge (DBD) that can generate a stable plasma at atmospheric pressure was generated in a microchip and used as the plasma source. The use of DBD suppresses the temperature rise of the electrodes and enables operation for long times because of a reduction of the electrode damage due to suppression of the current via dielectric interposing between the electrodes. It is expected that the analytical system can be miniaturized because helium plasma is generated in the microchannel contained in the microchip. Emissions from gaseous Cl, Br, and I were analyzed using the plasma source, and it was found that the detection limits for these analytes were 0.22, 0.18, and 0.14 ppm, respectively. The calibration curves for gaseous Cl, Br, and I were also plotted obtaining correlation coefficients of 0.975, 0.955 and 0.986, respectively, and showing good linearity for the developed plasma source.
Author HARIGANE, Ryoto
KAKEGAWA, Ken
MIYAHARA, Hidekazu
OKINO, Akitoshi
MARUO, Shoji
AIDA, Mari
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/28392529$$D View this record in MEDLINE/PubMed
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Keywords μ-TAS
atmospheric plasma
atomic emission spectroscopy
gas analysis
micro plasma
Micro total analysis systems
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Snippet To achieve a highly sensitive and onsite analysis of a small amount samples, a microplasma-based micro total analysis systems (μ-TAS) device was developed. A...
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SubjectTerms Analytical Chemistry
atmospheric plasma
Atmospheric pressure
atomic emission spectroscopy
Chemistry
Electrodes
Emissions
gas analysis
Helium
Helium plasma
micro plasma
Micro total analysis systems
Microchannels
Microplasmas
Plasma
Semiconductors
Temperature effects
μ-TAS
Title Development of a High-Density Microplasma Emission Source for a Micro Total Analysis System
URI https://www.jstage.jst.go.jp/article/analsci/33/4/33_505/_article/-char/en
https://link.springer.com/article/10.2116/analsci.33.505
https://www.ncbi.nlm.nih.gov/pubmed/28392529
https://www.proquest.com/docview/1896517906/abstract/
https://search.proquest.com/docview/1886350415
Volume 33
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