Chapter Chemical Detection of Short-Lived Species Induced in Aqueous Media by Atmospheric Pressure Plasma

Non-thermal atmospheric pressure plasmas are widely used in biomedical research and clinical applications. Such plasmas generate a variety of reactive oxygen and nitrogen species upon interaction with ambient surroundings. These species further interact with a biological substrate and are responsibl...

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Hoofdauteurs: Gorbanev, Yury, Bogaerts, Annemie
Formaat: Online
Taal:Engels
Gepubliceerd in: InTechOpen 2021
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Online toegang:ONIX_20210602_10.5772/intechopen.79480_436
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author Gorbanev, Yury
Bogaerts, Annemie
author_browse Bogaerts, Annemie
Gorbanev, Yury
author_facet Gorbanev, Yury
Bogaerts, Annemie
author_sort Gorbanev, Yury
collection Directory of Open Access Books
description Non-thermal atmospheric pressure plasmas are widely used in biomedical research and clinical applications. Such plasmas generate a variety of reactive oxygen and nitrogen species upon interaction with ambient surroundings. These species further interact with a biological substrate and are responsible for the biomedical effects of plasma. Liquid water is an essential part of any biological systems. Some of the most reactive species induced by plasma in aqueous media are radicals and atoms. Hence, the presence of certain chemical components in a plasma ‘cocktail’ presents an important task for both understanding and further development of plasma systems with specific purposes. In this chapter, we discuss various methods of detection of the plasma-generated short-lived reactive species. We dissert various plasma-induced radicals and atoms (•OH, O2•−/•OOH, •NO, O), together with non-radical short-lived species (−OONO, O3, 1O2). Electron paramagnetic resonance (EPR) is the most direct method of radical detection in water-based media. Special attention is paid to the limitations of the detection methods, with an emphasis on spin trapping used in EPR analysis.
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spelling doab-20.500.12854ir-702832025-08-13T14:11:53Z Chapter Chemical Detection of Short-Lived Species Induced in Aqueous Media by Atmospheric Pressure Plasma Gorbanev, Yury Bogaerts, Annemie plasma-liquid systems, reactive species, free radicals, spin trapping, electron paramagnetic resonance thema EDItEUR::R Earth Sciences, Geography, Environment, Planning::RB Earth sciences thema EDItEUR::R Earth Sciences, Geography, Environment, Planning::RB Earth sciences Non-thermal atmospheric pressure plasmas are widely used in biomedical research and clinical applications. Such plasmas generate a variety of reactive oxygen and nitrogen species upon interaction with ambient surroundings. These species further interact with a biological substrate and are responsible for the biomedical effects of plasma. Liquid water is an essential part of any biological systems. Some of the most reactive species induced by plasma in aqueous media are radicals and atoms. Hence, the presence of certain chemical components in a plasma ‘cocktail’ presents an important task for both understanding and further development of plasma systems with specific purposes. In this chapter, we discuss various methods of detection of the plasma-generated short-lived reactive species. We dissert various plasma-induced radicals and atoms (•OH, O2•−/•OOH, •NO, O), together with non-radical short-lived species (−OONO, O3, 1O2). Electron paramagnetic resonance (EPR) is the most direct method of radical detection in water-based media. Special attention is paid to the limitations of the detection methods, with an emphasis on spin trapping used in EPR analysis. 2021-02-10T12:58:18Z 2021-06-02T10:12:09Z 2019 chapter ONIX_20210602_10.5772/intechopen.79480_436 https://library.oapen.org/handle/20.500.12657/49322 https://directory.doabooks.org/handle/20.500.12854/70283 eng open access image/jpeg image/jpeg image/jpeg n/a n/a n/a https://library.oapen.org/bitstream/20.500.12657/49322/1/62417.pdf https://library.oapen.org/bitstream/20.500.12657/49322/1/62417.pdf https://library.oapen.org/bitstream/20.500.12657/49322/1/62417.pdf InTechOpen 10.5772/intechopen.79480 10.5772/intechopen.79480 035ecc65-6737-43cf-a13a-6bdf67ce01f4 open access
spellingShingle plasma-liquid systems, reactive species, free radicals, spin trapping, electron paramagnetic resonance
thema EDItEUR::R Earth Sciences, Geography, Environment, Planning::RB Earth sciences
thema EDItEUR::R Earth Sciences, Geography, Environment, Planning::RB Earth sciences
Gorbanev, Yury
Bogaerts, Annemie
Chapter Chemical Detection of Short-Lived Species Induced in Aqueous Media by Atmospheric Pressure Plasma
title Chapter Chemical Detection of Short-Lived Species Induced in Aqueous Media by Atmospheric Pressure Plasma
title_full Chapter Chemical Detection of Short-Lived Species Induced in Aqueous Media by Atmospheric Pressure Plasma
title_fullStr Chapter Chemical Detection of Short-Lived Species Induced in Aqueous Media by Atmospheric Pressure Plasma
title_full_unstemmed Chapter Chemical Detection of Short-Lived Species Induced in Aqueous Media by Atmospheric Pressure Plasma
title_short Chapter Chemical Detection of Short-Lived Species Induced in Aqueous Media by Atmospheric Pressure Plasma
title_sort chapter chemical detection of short lived species induced in aqueous media by atmospheric pressure plasma
topic plasma-liquid systems, reactive species, free radicals, spin trapping, electron paramagnetic resonance
thema EDItEUR::R Earth Sciences, Geography, Environment, Planning::RB Earth sciences
thema EDItEUR::R Earth Sciences, Geography, Environment, Planning::RB Earth sciences
topic_facet plasma-liquid systems, reactive species, free radicals, spin trapping, electron paramagnetic resonance
thema EDItEUR::R Earth Sciences, Geography, Environment, Planning::RB Earth sciences
thema EDItEUR::R Earth Sciences, Geography, Environment, Planning::RB Earth sciences
url ONIX_20210602_10.5772/intechopen.79480_436
work_keys_str_mv AT gorbanevyury chapterchemicaldetectionofshortlivedspeciesinducedinaqueousmediabyatmosphericpressureplasma
AT bogaertsannemie chapterchemicaldetectionofshortlivedspeciesinducedinaqueousmediabyatmosphericpressureplasma