Plasma bullet formation in liquid-damped atmospheric helium flow

Jingjing Liu; Michael G. Kong

doi:10.1109/TPS.2011.2165069

Plasma bullet formation in liquid-damped atmospheric helium flow

Jingjing Liu
, Michael G. Kong

School of Chemical Engineering and Technology

Loughborough University

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

2 Scopus citations

Abstract

Plasma bullets are often observed in atmospheric He or He/O₂ plasma jets with a floating or solid downstream electrode. The fast propagating ionization wave associated with plasma bullets has been recently suggested as a way to deliver reactive plasma species into a diseased cavity in human such as lung cancer. In such scenarios, however, the plasma-forming gas is usually damped by a large quantity of water, and the plasma-treating sample is always covered by biological fluid. Does the presence of H₂ molecules in the gas flow and in the sample quench plasma bullet and compromise the delivery of reactive plasma species? We present an experimental study to show that plasma bullet persists up to 1200 ppm of H₂ O in an atmospheric helium flow and travels at a speed of at least 5 km/s.

Original language	English
Article number	6008666
Pages (from-to)	2314-2315
Number of pages	2
Journal	IEEE Transactions on Plasma Science
Volume	39
Issue number	11 PART 1
DOIs	https://doi.org/10.1109/TPS.2011.2165069
State	Published - Nov 2011

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SDG 3 Good Health and Well-being

Keywords

Atmospheric-pressure plasmas
glow discharges
plasma chemistry

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10.1109/TPS.2011.2165069

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title = "Plasma bullet formation in liquid-damped atmospheric helium flow",

abstract = "Plasma bullets are often observed in atmospheric He or He/O2 plasma jets with a floating or solid downstream electrode. The fast propagating ionization wave associated with plasma bullets has been recently suggested as a way to deliver reactive plasma species into a diseased cavity in human such as lung cancer. In such scenarios, however, the plasma-forming gas is usually damped by a large quantity of water, and the plasma-treating sample is always covered by biological fluid. Does the presence of H2 molecules in the gas flow and in the sample quench plasma bullet and compromise the delivery of reactive plasma species? We present an experimental study to show that plasma bullet persists up to 1200 ppm of H2 O in an atmospheric helium flow and travels at a speed of at least 5 km/s.",

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AU - Liu, Jingjing

AU - Kong, Michael G.

PY - 2011/11

Y1 - 2011/11

N2 - Plasma bullets are often observed in atmospheric He or He/O2 plasma jets with a floating or solid downstream electrode. The fast propagating ionization wave associated with plasma bullets has been recently suggested as a way to deliver reactive plasma species into a diseased cavity in human such as lung cancer. In such scenarios, however, the plasma-forming gas is usually damped by a large quantity of water, and the plasma-treating sample is always covered by biological fluid. Does the presence of H2 molecules in the gas flow and in the sample quench plasma bullet and compromise the delivery of reactive plasma species? We present an experimental study to show that plasma bullet persists up to 1200 ppm of H2 O in an atmospheric helium flow and travels at a speed of at least 5 km/s.

AB - Plasma bullets are often observed in atmospheric He or He/O2 plasma jets with a floating or solid downstream electrode. The fast propagating ionization wave associated with plasma bullets has been recently suggested as a way to deliver reactive plasma species into a diseased cavity in human such as lung cancer. In such scenarios, however, the plasma-forming gas is usually damped by a large quantity of water, and the plasma-treating sample is always covered by biological fluid. Does the presence of H2 molecules in the gas flow and in the sample quench plasma bullet and compromise the delivery of reactive plasma species? We present an experimental study to show that plasma bullet persists up to 1200 ppm of H2 O in an atmospheric helium flow and travels at a speed of at least 5 km/s.

KW - Atmospheric-pressure plasmas

KW - glow discharges

KW - plasma chemistry

UR - https://www.scopus.com/pages/publications/81255209127

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M3 - 文章

AN - SCOPUS:81255209127

SN - 0093-3813

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SP - 2314

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JO - IEEE Transactions on Plasma Science

JF - IEEE Transactions on Plasma Science

IS - 11 PART 1

M1 - 6008666

ER -

Plasma bullet formation in liquid-damped atmospheric helium flow

Abstract

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