Investigation of mode interconversion for interfacial pattern formation through plasma–surface interaction

The appropriate understanding of the plasma–surface interaction is crucial in optimizing the atmospheric pressure plasma jet (APPJ) to suit a particular application. In this study, we mainly focus on the behavior of mode interconversion for interfacial patterns regarding APPJ interacting with a indi...

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Veröffentlicht in:	Plasma processes and polymers 2019-11, Vol.16 (11), p.n/a
Hauptverfasser:	Liu, Zhijie, Xu, Han, Zhou, Chunxi, Wang, Wei, Liu, Dingxin, Kong, Michael G.
Format:	Artikel
Sprache:	eng
Schlagworte:	atmospheric pressure plasma jet Electric fields Glass substrates Indium tin oxides Plasma jets plasma–surface interaction reactive species spatial–temporal distribution surface ionization wave
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container_title	Plasma processes and polymers
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creator	Liu, Zhijie Xu, Han Zhou, Chunxi Wang, Wei Liu, Dingxin Kong, Michael G.
description	The appropriate understanding of the plasma–surface interaction is crucial in optimizing the atmospheric pressure plasma jet (APPJ) to suit a particular application. In this study, we mainly focus on the behavior of mode interconversion for interfacial patterns regarding APPJ interacting with a indium tin oxide (ITO) glass substrate. By regulating the pulse voltage, annular interfacial pattern formation on ITO surface displays two types of modes, that is, the diffuse pattern and the streamer pattern. Furthermore, these two modes are not independent and are transformed into each other by introducing additive N2 and O2. The reason is mainly attributed to the difference of the N2+(B)/O(3p) ratio and local electric field distribution. This information on the operation mode and interconversion between them provides deep insights into the nature of the physicochemistry during plasma–surface interaction processes. The behavior of mode interconversion for the interfacial pattern regarding the glow‐like He atmospheric pressure plasma jet interacting with an indium tin oxide substrate are investigated. The results reveal that the interfacial pattern displays the diffuse mode and streamer mode, which are not independent and interconvert each other. This study is significant for deeply understanding the underlying mechanism of plasma–surface interaction and merits potential applications in biological tissue and surface modification.
doi_str_mv	10.1002/ppap.201900108
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The results reveal that the interfacial pattern displays the diffuse mode and streamer mode, which are not independent and interconvert each other. This study is significant for deeply understanding the underlying mechanism of plasma–surface interaction and merits potential applications in biological tissue and surface modification.</description><identifier>ISSN: 1612-8850</identifier><identifier>EISSN: 1612-8869</identifier><identifier>DOI: 10.1002/ppap.201900108</identifier><language>eng</language><publisher>Weinheim: Wiley Subscription Services, Inc</publisher><subject>atmospheric pressure plasma jet ; Electric fields ; Glass substrates ; Indium tin oxides ; Plasma jets ; plasma–surface interaction ; reactive species ; spatial–temporal distribution ; surface ionization wave</subject><ispartof>Plasma processes and polymers, 2019-11, Vol.16 (11), p.n/a</ispartof><rights>2019 WILEY‐VCH Verlag GmbH & Co. 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subjects	atmospheric pressure plasma jet Electric fields Glass substrates Indium tin oxides Plasma jets plasma–surface interaction reactive species spatial–temporal distribution surface ionization wave
title	Investigation of mode interconversion for interfacial pattern formation through plasma–surface interaction
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