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Number of results

Journal

2015 | 13 | 1 |

Article title

Spatially resolved spectroscopy
of an atmospheric pressure microwave
plasma jet used for surface treatment

Content

Title variants

Languages of publication

EN

Abstracts

EN

Publisher

Journal

Year

Volume

13

Issue

1

Physical description

Dates

accepted
16 - 5 - 2014
received
21 - 12 - 2013
online
9 - 12 - 2014

Contributors

  • Masaryk University, Department of physical electronics Kotlářská 2, CZ-61137 Brno, Czech Republic
  • Masaryk University, Department of physical electronics Kotlářská 2, CZ-61137 Brno, Czech Republic
author
  • Masaryk University, Department of physical electronics Kotlářská 2, CZ-61137 Brno, Czech Republic

References

  • ---
  • [1] Bardos L., Barankova H., Cold atmospheric plasma: Sources, processes, and applications, Thin Solid Films, 2010, 518, 6705-6713
  • [2] Tendero C., Tristant P., Desmaison J., Leprince P., Atmospheric pressure plasmas: A review, Spectrochim. Acta Part B, 2006, 61, 2-30
  • [3] Zenkiewicz M., Methods for the calculation of surface free energy of solids, J. Achievements Mater. Manuf. Eng., 2007, 24, 137
  • [4] Upadhyay D.J., Nai-Yi Cui, Anderson C.A., Brown N.M.D.,A comparative study of the surface activation of polyamides using an air dielectric barrier discharge, Colloids Surf. A: Physicochem. Eng. Asp., 2004, 248, 47-56
  • [5] Novak I., Steviar M., Chodak I., Surface energy and adhesive properties of polyamide 12 modified by barrier and radio-frequency discharge plasma, Monatshefte für Chemie, 2006, 137, 943-952
  • [6] Topala I., Dumitrascu N., Dynamics of the wetting process on dielectric barrier discharge (DBD) treated wood surfaces, J. Adh. Sci. Technol., 2007, 21, 1089-1096[WoS]
  • [7] Prysiazhnyi V., Vasina P., Panyala N.R., Havel J., Cernak M., Air DCSBD plasma treatment of Al surface at atmospheric pressure, Surf. Coat. Technol., 2012, 206, 3011-3016[WoS]
  • [8] Prysiazhnyi V., Cernak M., Air plasma treatment of copper sheets using Diffuse Coplanar Surface Barrier Discharge, Thin Solid Films, 2012, 520, 6561-6565
  • [9] Prysiazhnyi V., Svoboda T., Dvorak M., Klima M., Aluminum surface treatment by the RF plasma pencil, Surf. Coat. Technol., 2012, 206, 4140-4145[WoS]
  • [10] Uhm H.S., Hong Y.C., Shin D.H., A microwave plasma torch and its applications, Plasma Sources Sci. Technol., 2006, 15, S26-S34
  • [11] Moisan M., Zakrzewski Z., Pantel R., The theory and characteristics of an efficient surface wave launcher (surfatron) producing long plasma columns, J. Phys. D: Appl. Phys., 1979, 12, 219-237[Crossref]
  • [12] Hnilica J., Kudrle V., Potocnakova L., Surface treatment by atmospheric-pressure surfatron jet, IEEE Trans. Plasma Sci., 2012, 40, 2925-2930[WoS]
  • [13] Hnilica J., Potocnakova L., Stupavska M., Kudrle V., Rapid surface treatment of polyamide 12 by microwave plasma jet, Appl. Surf. Sci., 2014, 288, 251-257[WoS]
  • [14] Lu X., Laroussi M., Puech V., On atmospheric-pressure non-equilibrium plasma jets and plasma bullets, Plasma Sources Sci. Technol., 2012, 21, 034005
  • [15] Razzak M.A., Takamura S., Saito S., Talukder M.R., Estimation of plasma parameters for microwave-sustained Ar/He plasma jets at atmospheric pressure, Contrib. Plasma Phys., 2010, 50, 871-877[WoS]
  • [16] Ferreira C.M., Theory of a plasma column sustained by a surface wave, J. Phys. D: Appl. Phys., 1981, 14, 1811-1830[Crossref]
  • [17] Moisan M., Shivarova A., Trivelpiece A.W., Experimental investigations of the propagation of surface waves along a plasma column, Plasma Phys., 1982, 24, 1331-1400[Crossref]
  • [18] Moisan M., Ferreira C.M., Hajlaoui Y., Henry D., Hubert J., Pantel R., Ricard A., Zakrzewski Z., Properties and applications of surface wave produced plasmas, Revue Phys. Appl., 1982, 17, 707-727[Crossref]
  • [19] Moisan M., Zakrzewski Z., Plasma sources based on the propagation of electromagnetic surface waves, J. Phys. D: Appl. Phys., 1991, 24, 1025-1048[Crossref]
  • [20] Yildirim Erbil H., Surface chemistry of solid and liquid interfaces, Blackwell Publishing, Oxford, 2006
  • [21] Buršíková V., S?tahel P., Navratil Z., Bursik J., Janca J., Surface energy evaluation of plasma treated materials by contact angle measurement, Masaryk University, Brno, 2004
  • [22] Garcia M.C., Yubero C., Calzada M.D., Martinez-Jimenez M.P., Spectroscopic characterization of two different microwave (2.45 GHz) induced argon plasmas at atmospheric pressure,Appl. Spectrosc., 2005, 59, 519-528
  • [23] Griem H.R., Plasma spectroscopy, McGraw-Hill, New York, 1964
  • [24] Munoz J., Dimitrijevic M.S., Yubero C., Calzada M.D., Using the van der Waals broadening of spectral atomic lines to measure the gas temperature of an argon–helium microwave plasma at atmospheric pressure, Spectrochim. Acta Part B, 2009, 64, 167-172
  • [25] Calzada M.D., Moisan M., Gamero A., Sola A., Experimental investigation and characterization of the departure from local thermodynamic equilibrium along a surface-wave-sustained discharge at atmospheric pressure, J. Appl. Phys., 1996, 80, 46-55
  • [26] Gavare Z., Svagere A., Zinge M., Revalde G., Fyodorov V., Determination of gas temperature of high-frequency low-temperature electrodeless plasma using molecular spectra of hydrogen and hydroxyl-radical, J. Quant. Spectrosc. Radiat. Transfer, 2012, 113, 1676-1682
  • [27] Engelhard C., Chan G.C.Y., Gamez G., Buscher W., Hieftje G.M., Plasma diagnostic on a low-flow plasma for inductively coupled plasma optical emission spectrometry, Spectrochim. Acta Part B, 2008, 63, 619-629
  • [28]
  • [28] Potocnakova L., Hnilica J., Kudrle V., Increase of wettability of soft- and hardwoods using microwave plasma, Int. J. Adh. Adh., 2013, 45, 125-131 [WoS]

Document Type

Publication order reference

Identifiers

YADDA identifier

bwmeta1.element.-psjd-doi-10_1515_chem-2015-0066
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