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Bong-ju Lee, Y. Kusano, N. Kato, K. Naito, T. Horiuchi, Hideomi Koinuma (1997)
Oxygen Plasma Treatment of Rubber Surface by the Atmospheric Pressure Cold Plasma TorchJapanese Journal of Applied Physics, 36
H. Ha, M. Yoshimoto, H. Koinuma, B. Moon, H. Ishiwara (1996)
Open air plasma chemical vapor deposition of highly dielectric amorphous TiO2 filmsApplied Physics Letters, 68
S. Kanazawa, M. Kogoma, T. Moriwaki, S. Okazaki (1988)
Stable glow plasma at atmospheric pressureJournal of Physics D: Applied Physics, 21
Yuri Raizer, M. Shneider, N. Yatsenko (1995)
Radio-Frequency Capacitive Discharges
John Goree, Bin Liu, David Drake, Eva Stoffels (2006)
Killing of S. mutans Bacteria Using a Plasma Needle at Atmospheric PressureIEEE Transactions on Plasma Science, 34
Cheng Cheng, Liyie Zhang, R. Zhan (2006)
Surface modification of polymer fibre by the new atmospheric pressure cold plasma jetSurface & Coatings Technology, 200
D. Kim, J. Rhee, S. Moon, W. Choe (2006)
Study of geometrical and operational parameters controlling the low frequency microjet atmospheric pressure plasma characteristicsApplied Physics Letters, 89
M. Laroussi (1996)
Sterilization of contaminated matter with an atmospheric pressure plasmaIEEE Transactions on Plasma Science, 24
R. Sladek, E. Stoffels, R. Walraven, P.J.A. Tielbeek, R. Koolhoven (2004)
Plasma treatment of dental cavities: a feasibility studyIEEE Transactions on Plasma Science, 32
S. Shakir, Sandhya Mynampati, B. Pashaie, S. Dhali (2006)
rf-generated ambient-afterglow plasmaJournal of Applied Physics, 99
M. Laroussi, Xinpei Lu (2005)
Room-temperature atmospheric pressure plasma plume for biomedical applicationsApplied Physics Letters, 87
I. Kieft, Moamina Kurdi, E. Stoffels (2006)
Reattachment and Apoptosis After Plasma-Needle Treatment of Cultured CellsIEEE Transactions on Plasma Science, 34
E. Stoffels, Y. Gonzalvo, T. Whitmore, D. Seymour, J. Rees (2006)
A plasma needle generates nitric oxidePlasma Sources Science and Technology, 15
Guangliang Chen, Shihua Chen, Mingyan Zhou, Wenran Feng, Weichao Gu, Si‐ze Yang (2006)
The preliminary discharging characterization of a novel APGD plume and its application in organic contaminant degradationPlasma Sources Science and Technology, 15
E. Stoffels, R. Sladek, I. Kieft, H. Kersten, R. Wiese (2004)
Power outflux from the plasma: an important parameter in surface processingPlasma Physics and Controlled Fusion, 46
Wenchao Zhu, Bai-Rong Wang, Zonggan Yao, Y. Pu (2005)
Discharge characteristics of an atmospheric pressure radio-frequency plasma jetJournal of Physics D: Applied Physics, 38
E. Stoffels, I. Kieft, R. Sladek (2003)
Superficial treatment of mammalian cells using plasma needleJournal of Physics D, 36
R. Dorai, M. Kushner (2003)
A model for plasma modification of polypropylene using atmospheric pressure dischargesJournal of Physics D, 36
M. Teschke, J. Kedzierski, E. Finanţu-Dinu, D. Korzec, J. Engemann (2005)
High-speed photographs of a dielectric barrier atmospheric pressure plasma jetIEEE Transactions on Plasma Science, 33
V. Leveillé, S. Coulombe (2005)
Design and preliminary characterization of a miniature pulsed RF APGD torch with downstream injection of the source of reactive speciesPlasma Sources Science and Technology, 14
M. Laroussi (2002)
Nonthermal decontamination of biological media by atmospheric-pressure plasmas: review, analysis, and prospectsIEEE Transactions on Plasma Science, 30
V. Tu, J. Jeong, A. Schütze, S. Babayan, G. Ding, G. Selwyn, R. Hicks (2000)
Tantalum Etching with a Nonthermal Atmospheric-Pressure PlasmaJournal of Vacuum Science and Technology, 18
U. Kogelschatz (2007)
Applications of Microplasmas and Microreactor TechnologyContributions to Plasma Physics, 47
J. Laimer, S. Haslinger, W. Meissl, J. Hell, H. Störi (2005)
Investigation of an atmospheric pressure radio-frequency capacitive plasma jetVacuum, 79
Kiyoto Inomata, H. Ha, K. Chaudhary, H. Koinuma (1994)
Open air deposition of SiO2 film from a cold plasma torch of tetramethoxysilane‐H2‐Ar systemApplied Physics Letters, 64
Y. Duan, Chun Huang, Qingsong Yu (2005)
Low-temperature direct current glow discharges at atmospheric pressureIEEE Transactions on Plasma Science, 33
H. Ha, B. Moon, T. Horiuchi, T. Inushima, H. Ishiwara, H. Koinuma (1996)
Structure and electric properties of TiO2 films prepared by cold plasma torch under atmospheric pressureMaterials Science and Engineering B-advanced Functional Solid-state Materials, 41
Kiyoto Inomata, H. Koinuma, Yoshiyuki Oikawa, T. Shiraishi (1995)
Open air photoresist ashing by a cold plasma torch: Catalytic effect of cathode materialApplied Physics Letters, 66
F. Massines, A. Rabehi, P. Decomps, R. Gadri, P. Ségur, C. Mayoux (1998)
Experimental and theoretical study of a glow discharge at atmospheric pressure controlled by dielectric barrierJournal of Applied Physics, 83
R. Foest, E. Kindel, A. Ohl, M. Stieber, K. Weltmann (2005)
Non-thermal atmospheric pressure discharges for surface modificationPlasma Physics and Controlled Fusion, 47
A. Broc, S. Benedictis, G. Dilecce (2004)
LIF investigations on NO, O and N in a supersonic N2/O2/NO RF plasma jetPlasma Sources Science and Technology, 13
S. Förster, C. Mohr, W. Viöl (2005)
Investigations of an atmospheric pressure plasma jet by optical emission spectroscopySurface & Coatings Technology, 200
A. Sublet, C. Ding, J. Dorier, C. Hollenstein, P. Fayet, F. Coursimault (2006)
Atmospheric and sub-atmospheric dielectric barrier discharges in helium and nitrogenPlasma Sources Science and Technology, 15
J. Walsh, Jianjun Shi, M. Kong (2006)
Contrasting characteristics of pulsed and sinusoidal cold atmospheric plasma jetsApplied Physics Letters, 88
S. Babayan, J Jeong, V. Tu, J. Park, G. Selwyn, R Hicks (1998)
Deposition of silicon dioxide films with an atmospheric-pressure plasma jetPlasma Sources Science and Technology, 7
U. Kogelschatz (2002)
Filamentary, patterned, and diffuse barrier dischargesIEEE Transactions on Plasma Science, 30
G. Dilecce, M. Vigliotti, S. Benedictis (2000)
A TALIF calibration method for quantitative oxygen atom density measurement in plasma jetsJournal of Physics D, 33
I. Kieft, E. Laan, E. Stoffels (2004)
Electrical and optical characterization of the plasma needleNew Journal of Physics, 6
M. Laroussi, C. Tendero, Xinpei Lu, S. Alla, W. Hynes (2006)
Inactivation of bacteria by the plasma pencilPlasma Processes and Polymers, 3
J. Laimer, H. Störi (2006)
Glow Discharges Observed in Capacitive Radio-Frequency Atmospheric-Pressure Plasma JetsPlasma Processes and Polymers, 3
E. Stoffels, Aj Flikweert, W. Stoffels, G. Kroesen (2002)
Plasma needle: a non-destructive atmospheric plasma source for fine surface treatment of (bio)materialsPlasma Sources Science and Technology, 11
Z. Hubička, M. Čada, M. Šícha, A. Churpita, P. Pokorný, L. Soukup, L. Jastrabík (2002)
Barrier-torch discharge plasma source for surface treatment technology at atmospheric pressurePlasma Sources Science and Technology, 11
M. Laroussi (2005)
Low Temperature Plasma-Based Sterilization: Overview and State-of-the-ArtPlasma Processes and Polymers, 2
X. Yang, M. Moravej, G. Nowling, S. Babayan, J. Panelon, J Chang, R Hicks (2005)
Comparison of an atmospheric pressure, radio-frequency discharge operating in the α and γ modesPlasma Sources Science and Technology, 14
A. El-Habachi, K. Schoenbach (1998)
Emission of excimer radiation from direct current, high-pressure hollow cathode dischargesApplied Physics Letters, 72
J. Janca, M. Klı〔ma, P. Slavíček, L. Zajı〔čková (1999)
HF plasma pencil- new source for plasma surface processingSurface & Coatings Technology, 1999
Kiyoto Inomata, N. Aoki, Hideomi Koinuma (1994)
Production of Fullerenes by Low Temperature Plasma Chemical Vaper Deposition under Atmospheric PressureJapanese Journal of Applied Physics, 33
S. Babayan, J Jeong, A. Schütze, V. Tu, Maryam Moravej, G. Selwyn, R Hicks (2001)
Deposition of Silicon Dioxide Films with a Non-Equilibrium Atmospheric-Pressure Plasma JetPlasma Sources Science and Technology, 10
B. Park, Dae-Hyung Lee, Jong-Chul Park, In-Seop Lee, Kwon-Yong Lee, Soon Hyun, M. Chun, Kie-Hyung Chung (2003)
Sterilization using a microwave-induced argon plasma system at atmospheric pressurePhysics of Plasmas, 10
A. Schütze, J. Jeong, S. Babayan, Jaeyoung Park, G. Selwyn, R. Hicks (1998)
The atmospheric-pressure plasma jet: a review and comparison to other plasma sourcesIEEE Transactions on Plasma Science, 26
L. Bardos, H. Barankova, S. Berg (1997)
Thin film processing by radio frequency hollow cathodesSurface & Coatings Technology, 97
I. Kieft, D. Darios, A. Roks, E. Stoffels (2005)
Plasma treatment of mammalian vascular cells: a quantitative descriptionIEEE Transactions on Plasma Science, 33
G. Dawson, W. Winn (1965)
A model for streamer propagationZeitschrift für Physik, 183
R. Stonies, S. Schermer, E. Voges, J. Broekaert (2004)
A new small microwave plasma torchPlasma Sources Science and Technology, 13
Jianjun Shi, M. Kong (2005)
Mode Characteristics of radio-frequency atmospheric glow dischargesIEEE Transactions on Plasma Science, 33
Y. Golubovskii, V. Maiorov, J. Behnke, J. Tepper, M. Lindmayer (2004)
Study of the homogeneous glow-like discharge in nitrogen at atmospheric pressureJournal of Physics D, 37
U. Kogelschatz (1990)
Silent discharges for the generation of ultraviolet and vacuum ultraviolet excimer radiationPure and Applied Chemistry, 62
H. Herrmann, I. Henins, Jongkyu Park, G. Selwyn (1999)
Decontamination of chemical and biological warfare (CBW) agents using an atmospheric pressure plasma jet (APPJ)Physics of Plasmas, 6
S. Wang, V. Gathen, H. Döbele (2003)
Discharge comparison of nonequilibrium atmospheric pressure Ar/O2 and He/O2 plasma jetsApplied Physics Letters, 83
R. Sladek, T. Baede, E. Stoffels (2006)
Plasma-Needle Treatment of Substrates With Respect to Wettability and Growth of Escherichia coli and Streptococcus mutansIEEE Transactions on Plasma Science, 34
E. Kunhardt (2000)
Generation of large-volume, atmospheric-pressure, nonequilibrium plasmasIEEE Transactions on Plasma Science, 28
J. Jeong, S. Babayan, A. Schütze, V. Tu, Jaeyoung Park, I. Henins, G. Selwyn, R. Hicks (1999)
ETCHING POLYIMIDE WITH A NONEQUILIBRIUM ATMOSPHERIC-PRESSURE PLASMA JETJournal of Vacuum Science and Technology, 17
Xinpei Lu, M. Laroussi (2006)
Dynamics of an atmospheric pressure plasma plume generated by submicrosecond voltage pulsesJournal of Applied Physics, 100
H. Koinuma, H. Ohkubo, T. Hashimoto, Kiyoto Inomata, T. Shiraishi, A. Miyanaga, S. Hayashi (1992)
Development and application of a microbeam plasma generatorApplied Physics Letters, 60
Jialiang Zhang, Jiao Sun, Dezhen Wang, Xiaogang Wang (2006)
A novel cold plasma jet generated by atmospheric dielectric barrier capillary dischargeThin Solid Films, 506
J. Eden, S. Park, N. Ostrom, S. McCain, C. Wagner, B. Vojak, Jack Chen, C. Liu, P. Allmen, F. Zenhausern, D. Sadler, C. Jensen, D. Wilcox, J. Ewing (2003)
Microplasma devices fabricated in silicon, ceramic, and metal/polymer structures: Arrays, emitters and photodetectorsJournal of Physics D, 36
J. Jeong, S. Babayan, V. Tu, Jaeyoung Park, I. Henins, R. Hicks, G. Selwyn (1998)
Etching materials with an atmospheric-pressure plasma jetPlasma Sources Science and Technology, 7
B. Eliasson, U. Kogelschatz (1991)
Modeling and applications of silent discharge plasmasIEEE Transactions on Plasma Science, 19
M. Laroussi, I. Alexeff, J. Richardson, F. Dyer (2002)
The resistive barrier dischargeIEEE Transactions on Plasma Science, 30
H. Ha, Kiyoto Inomata, H. Koinuma (1995)
Plasma chemical vapor deposition of SiO2 on air-exposed surfaces by cold plasma torchJournal of The Electrochemical Society, 142
E. Sosnin, E. Stoffels, M. Erofeev, I. Kieft, S. Kunts (2004)
The effects of UV irradiation and gas plasma treatment on living mammalian cells and bacteria: a comparative approachIEEE Transactions on Plasma Science, 32
Non‐thermal atmospheric pressure plasma jets/plumes are playing an increasingly important role in various plasma processing applications. This is because of their practical capability to provide plasmas that are not spatially bound or confined by electrodes. This capability is very desirable in many situations such as in biomedical applications. Various types of ‘cold’ plasma jets have, therefore, been developed to better suit specific uses. In this paper a review of the different cold plasma jets developed to date is presented. The jets are classified according to their power sources, which cover a wide frequency spectrum from DC to microwaves. Each jet is characterized by providing its operational parameters such as its electrodes system, plasma temperature, jet/plume geometrical size (length, radius), power consumption, and gas mixtures used. Applications of each jet are also briefly covered.
Plasma Processes and Polymers – Wiley
Published: Nov 22, 2007
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