Reproducibility of 'COST reference microplasma jets'

F. Riedel; J. Golda; J. Held; H.L. Davies; M.W. Van Der Woude; J. Bredin; K. Niemi; T. Gans; V. Schulz-Von Der Gathen; D. O'Connell

doi:10.1088/1361-6595/abad01

Reproducibility of 'COST reference microplasma jets'

F. Riedel
, J. Golda
, J. Held
, H.L. Davies
, M.W. Van Der Woude
, J. Bredin
, K. Niemi (Corresponding author)
, T. Gans
, V. Schulz-Von Der Gathen
, D. O'Connell

Research output: Contribution to journal › Article › Academic › peer-review

27 Citations (Scopus)

Abstract

Atmospheric pressure plasmas have been ground-breaking for plasma science and technologies, due to their significant application potential in many fields, including medicinal, biological, and environmental applications. This is predominantly due to their efficient production and delivery of chemically reactive species under ambient conditions. One of the challenges in progressing the field is comparing plasma sources and results across the community and the literature. To address this a reference plasma source was established during the 'biomedical applications of atmospheric pressure plasmas' EU COST Action MP1101. It is crucial that reference sources are reproducible. Here, we present the reproducibility and variance across multiple sources through examining various characteristics, including: Absolute atomic oxygen densities, absolute ozone densities, electrical characteristics, optical emission spectroscopy, temperature measurements, and bactericidal activity. The measurements demonstrate that the tested COST jets are mainly reproducible within the intrinsic uncertainty of each measurement technique.

Original language	English
Article number	095018
Journal	Plasma Sources Science and Technology
Volume	29
Issue number	9
DOIs	https://doi.org/10.1088/1361-6595/abad01
Publication status	Published - Sept 2020
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2020 The Author(s). Published by IOP Publishing Ltd.

Keywords

atmospheric pressure plasma jet
biomedical applications of plasmas
capacitively coupled radio frequency discharge
COST reference microplasma jet
plasma medicine
power measurements

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10.1088/1361-6595/abad01

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title = "Reproducibility of 'COST reference microplasma jets'",

abstract = "Atmospheric pressure plasmas have been ground-breaking for plasma science and technologies, due to their significant application potential in many fields, including medicinal, biological, and environmental applications. This is predominantly due to their efficient production and delivery of chemically reactive species under ambient conditions. One of the challenges in progressing the field is comparing plasma sources and results across the community and the literature. To address this a reference plasma source was established during the 'biomedical applications of atmospheric pressure plasmas' EU COST Action MP1101. It is crucial that reference sources are reproducible. Here, we present the reproducibility and variance across multiple sources through examining various characteristics, including: Absolute atomic oxygen densities, absolute ozone densities, electrical characteristics, optical emission spectroscopy, temperature measurements, and bactericidal activity. The measurements demonstrate that the tested COST jets are mainly reproducible within the intrinsic uncertainty of each measurement technique.",

keywords = "atmospheric pressure plasma jet, biomedical applications of plasmas, capacitively coupled radio frequency discharge, COST reference microplasma jet, plasma medicine, power measurements",

author = "F. Riedel and J. Golda and J. Held and H.L. Davies and \{Van Der Woude\}, M.W. and J. Bredin and K. Niemi and T. Gans and \{Schulz-Von Der Gathen\}, V. and D. O'Connell",

note = "Publisher Copyright: {\textcopyright} 2020 The Author(s). Published by IOP Publishing Ltd.",

year = "2020",

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doi = "10.1088/1361-6595/abad01",

language = "English",

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AU - Riedel, F.

AU - Golda, J.

AU - Held, J.

AU - Davies, H.L.

AU - Van Der Woude, M.W.

AU - Bredin, J.

AU - Niemi, K.

AU - Gans, T.

AU - Schulz-Von Der Gathen, V.

AU - O'Connell, D.

PY - 2020/9

Y1 - 2020/9

N2 - Atmospheric pressure plasmas have been ground-breaking for plasma science and technologies, due to their significant application potential in many fields, including medicinal, biological, and environmental applications. This is predominantly due to their efficient production and delivery of chemically reactive species under ambient conditions. One of the challenges in progressing the field is comparing plasma sources and results across the community and the literature. To address this a reference plasma source was established during the 'biomedical applications of atmospheric pressure plasmas' EU COST Action MP1101. It is crucial that reference sources are reproducible. Here, we present the reproducibility and variance across multiple sources through examining various characteristics, including: Absolute atomic oxygen densities, absolute ozone densities, electrical characteristics, optical emission spectroscopy, temperature measurements, and bactericidal activity. The measurements demonstrate that the tested COST jets are mainly reproducible within the intrinsic uncertainty of each measurement technique.

AB - Atmospheric pressure plasmas have been ground-breaking for plasma science and technologies, due to their significant application potential in many fields, including medicinal, biological, and environmental applications. This is predominantly due to their efficient production and delivery of chemically reactive species under ambient conditions. One of the challenges in progressing the field is comparing plasma sources and results across the community and the literature. To address this a reference plasma source was established during the 'biomedical applications of atmospheric pressure plasmas' EU COST Action MP1101. It is crucial that reference sources are reproducible. Here, we present the reproducibility and variance across multiple sources through examining various characteristics, including: Absolute atomic oxygen densities, absolute ozone densities, electrical characteristics, optical emission spectroscopy, temperature measurements, and bactericidal activity. The measurements demonstrate that the tested COST jets are mainly reproducible within the intrinsic uncertainty of each measurement technique.

KW - atmospheric pressure plasma jet

KW - biomedical applications of plasmas

KW - capacitively coupled radio frequency discharge

KW - COST reference microplasma jet

KW - plasma medicine

KW - power measurements

UR - https://www.scopus.com/pages/publications/85092328874

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DO - 10.1088/1361-6595/abad01

M3 - Article

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SN - 0963-0252

VL - 29

JO - Plasma Sources Science and Technology

JF - Plasma Sources Science and Technology

IS - 9

M1 - 095018

ER -

Reproducibility of 'COST reference microplasma jets'

Abstract

Bibliographical note

Keywords

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