Atmospheric pressure glow-discharge plasmas with gas-liquid interface

Kazuhiko Baba; Takeru Okada; Toshiro Kaneko; Rikizo Hatakeyama

doi:10.1143/JJAP.45.8286

Atmospheric pressure glow-discharge plasmas with gas-liquid interface

Kazuhiko Baba, Takeru Okada, Toshiro Kaneko, Rikizo Hatakeyama

ENG - Electronic Engineering

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

18 Citations (Scopus)

Abstract

An atmospheric pressure glow-discharge plasma in contact with liquid is generated using a capacitively coupled plasma (CCP) method, by which a boundary region between a plasma (gas-phase) and liquid paraffin (liquid-phase), i.e., gas-liquid interface is considered to be important. A stable atmospheric pressure plasma with liquid is achieved by selecting the appropriate mesh electrode and liquid paraffin. In addition, results of optical emission spectroscopy indicate that carbonic species come from paraffin in the interface region of the plasma. This plasma is accordingly expected to promote the use of an attractive plasma process for creating materials encapsulating various elements in liquids.

Original language	English
Pages (from-to)	8286-8289
Number of pages	4
Journal	Japanese Journal of Applied Physics, Part 1: Regular Papers and Short Notes and Review Papers
Volume	45
Issue number	10 B
DOIs	https://doi.org/10.1143/JJAP.45.8286
Publication status	Published - 2006 Oct 21

Keywords

Atmospheric pressure
Gas-liquid interface
Glow-discharge plasma
Liquid paraffin
Mesh electrode
Surface tension
Wire electrode

ASJC Scopus subject areas

Engineering(all)
Physics and Astronomy(all)

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title = "Atmospheric pressure glow-discharge plasmas with gas-liquid interface",

abstract = "An atmospheric pressure glow-discharge plasma in contact with liquid is generated using a capacitively coupled plasma (CCP) method, by which a boundary region between a plasma (gas-phase) and liquid paraffin (liquid-phase), i.e., gas-liquid interface is considered to be important. A stable atmospheric pressure plasma with liquid is achieved by selecting the appropriate mesh electrode and liquid paraffin. In addition, results of optical emission spectroscopy indicate that carbonic species come from paraffin in the interface region of the plasma. This plasma is accordingly expected to promote the use of an attractive plasma process for creating materials encapsulating various elements in liquids.",

keywords = "Atmospheric pressure, Gas-liquid interface, Glow-discharge plasma, Liquid paraffin, Mesh electrode, Surface tension, Wire electrode",

author = "Kazuhiko Baba and Takeru Okada and Toshiro Kaneko and Rikizo Hatakeyama",

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T1 - Atmospheric pressure glow-discharge plasmas with gas-liquid interface

AU - Baba, Kazuhiko

AU - Okada, Takeru

AU - Kaneko, Toshiro

AU - Hatakeyama, Rikizo

PY - 2006/10/21

Y1 - 2006/10/21

N2 - An atmospheric pressure glow-discharge plasma in contact with liquid is generated using a capacitively coupled plasma (CCP) method, by which a boundary region between a plasma (gas-phase) and liquid paraffin (liquid-phase), i.e., gas-liquid interface is considered to be important. A stable atmospheric pressure plasma with liquid is achieved by selecting the appropriate mesh electrode and liquid paraffin. In addition, results of optical emission spectroscopy indicate that carbonic species come from paraffin in the interface region of the plasma. This plasma is accordingly expected to promote the use of an attractive plasma process for creating materials encapsulating various elements in liquids.

AB - An atmospheric pressure glow-discharge plasma in contact with liquid is generated using a capacitively coupled plasma (CCP) method, by which a boundary region between a plasma (gas-phase) and liquid paraffin (liquid-phase), i.e., gas-liquid interface is considered to be important. A stable atmospheric pressure plasma with liquid is achieved by selecting the appropriate mesh electrode and liquid paraffin. In addition, results of optical emission spectroscopy indicate that carbonic species come from paraffin in the interface region of the plasma. This plasma is accordingly expected to promote the use of an attractive plasma process for creating materials encapsulating various elements in liquids.

KW - Atmospheric pressure

KW - Gas-liquid interface

KW - Glow-discharge plasma

KW - Liquid paraffin

KW - Mesh electrode

KW - Surface tension

KW - Wire electrode

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