Dielectric barrier discharge for surface treatment: application to selected polymers in film and fibre form

Borcia, G.; Anderson, C. A.; Brown, N. M. D.

doi:10.1088/0963-0252/12/3/306

Cited by 245 publications

(137 citation statements)

References 22 publications

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“…Dielectric barrier discharges have become promising candidates to fulfil aforementioned requirements [7,[14][15][16]. The DBD in volume configuration has been adopted for atmospheric-pressure plasma processing at first for its simple design [3,17,18].…”

Section: Introductionmentioning

confidence: 99%

Diffuse Coplanar Surface Barrier Discharge in Artificial Air: Statistical Behaviour of Microdischarges

et al. 2014

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Diffuse Coplanar Surface Barrier Discharge (DCSBD) is a novel type of atmospheric-pressure plasma source developed for high-speed large-area surface plasma treatments. The statistical behavior of microdischarges of DCSBD generated in artificial air atmosphere was studied using time-correlated optical and electrical measurements. Changes in behavior of microdischarges are shown for various electrode gap widths and input voltage amplitudes. They are discussed in the light of correlation of the number of microdischarges and the number of unique microdischarges' paths per discharge event.The 'memory effect' was observed in the behavior of microdischarges and it manifests itself in a significant number of microdischarges reusing the path of microdischarges from previous half-period. Surprisingly this phenomenon was observed even for microdischarges of the same half-period of the discharge, where mechanisms other than charge deposition have to be involved. The phenomenon of discharge paths reuse is most pronounced for wide electrode gap width and/or increased input voltage amplitude.

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Section: Introductionmentioning

confidence: 99%

Diffuse Coplanar Surface Barrier Discharge in Artificial Air: Statistical Behaviour of Microdischarges

et al. 2014

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“…Some of these applications concern photo-chemical treatment of water [Azrague K et al 2005, Gonzalez et al 2004, volatile organic compound (VOC) remediation [Biomorgi J et al 2005, Koutsospyros A et al 2004, biochemical decontamination and remediation of toxic gases [Herrman H W et al 1999], realisation of non-coherent vacuum ultraviolet (VUV: 100 nm < λ < 200 nm) or ultraviolet (UV: 200 nm < λ < 400 nm) sources [Kurunczi P et al 1999, Masoud N et al 2004, material deposition [Babayan S E et al 1998], H 2 generation for fuel cells and diesel reforming [Qiu H et al 2004, exhaust treatment [Dietz et al 2004] … As far as non-coherent radiation DBD sources are concerned, VUV sources are of topical interest for a variety of industrial purposes such as plasma processing [Kogelschatz U et al 1999], surface cleaning [Korfatis G et al 2002] and modification [Wagner H-E et al 2003, Borcia G et al 2003, sterilization, decontamination and medical care. Recently some emerging scientific investigations were performed in neon [Carman R J et al 2010].…”

Section: Introductionmentioning

confidence: 99%

Electric and spectroscopic analysis of a pure nitrogen mono-filamentary dielectric barrier discharge (MF-DBD) at 760 Torr

Sewraj¹,

Merbahi²,

Gardou³

et al. 2011

J. Phys. D: Appl. Phys.

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To cite this version:N Sewraj, N Merbahi, J P Gardou, P Rodriguez Akerreta, F Marchal. Electric and spectroscopic analysis of a pure nitrogen mono-filamentary dielectric barrier discharge (MF-DBD) at 760Torr. Journal of Physics D: Applied Physics, IOP Publishing, 2011, 44 (14) AbstractAs far as we know, VUV emissions of nitrogen MF-DBDs have never been reported before.Mono-filamentary dielectric barrier discharge (MF-DBD), occurring within 1-mm gap of atmospheric pressure pure nitrogen and operating with a sinusoidal electric supply at about 8 kHz, is studied in this paper.A thorough electrical analysis allows experimental determination of the ignition and extinction voltages,respectively (

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“…Many authors agree that probability for surface de-excitation of molecules with the excitation energy of only 1 eV is always low and practically independent from characteristics of solid materials. On the other hand, the literature on interaction between neutral oxygen atoms and solid materials abounds [76][77][78][79][80].…”

Section: Plasma Treatment Of Cellulose Wound Dressingmentioning

confidence: 99%

Plasma Induced Hydrophilic Cellulose Wound Dressing

Peršin¹,

Mozetič²,

Vesel³

et al. 2013

Cellulose - Medical, Pharmaceutical and Electronic Applications

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Dielectric barrier discharge for surface treatment: application to selected polymers in film and fibre form

Cited by 245 publications

References 22 publications

Diffuse Coplanar Surface Barrier Discharge in Artificial Air: Statistical Behaviour of Microdischarges

Diffuse Coplanar Surface Barrier Discharge in Artificial Air: Statistical Behaviour of Microdischarges

Electric and spectroscopic analysis of a pure nitrogen mono-filamentary dielectric barrier discharge (MF-DBD) at 760 Torr

Plasma Induced Hydrophilic Cellulose Wound Dressing

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