Wolfgang Viöl scite author profile

The dielectric barrier discharge (DBD) plasma source for biomedical application is characterized using optical emission spectroscopy, plasma-chemical simulation and voltage–current measurements. This plasma source possesses only one electrode covered by ceramic. Human body or some other object with enough high electric capacitance or connected to ground can serve as the opposite electrode. DBD consists of a number of microdischarge channels distributed in the gas gap between the electrodes and on the surface of the dielectric. To characterize the plasma conditions in the DBD source, an aluminium plate is used as an opposite electrode. Electric parameters, the diameter of microdischarge channel and plasma parameters (electron distribution function and electron density) are determined. The gas temperature is measured in the microdischarge channel and calculated in afterglow phase. The heating of the opposite electrode is studied using probe measurement. The gas and plasma parameters in the microdischarge channel are studied at varied distances between electrodes. According to an energy balance study, the input microdischarge electric energy dissipates mainly in heating of electrodes (about 90%) and partially (about 10%) in the production of chemical active species (atoms and metastable molecules).

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Atmospheric pressure plasma in dermatology: Ulcus treatment and much more

Emmert

Brehmer

Hänßle

et al. 2013

Clinical Plasma Medicine

174

124

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Plasma-Based Degradation of Mycotoxins Produced by Fusarium, Aspergillus and Alternaria Species

Bosch¹,

Pfohl

Avramidis³

et al. 2017

Toxins

133

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The efficacy of cold atmospheric pressure plasma (CAPP) with ambient air as working gas for the degradation of selected mycotoxins was studied. Deoxynivalenol, zearalenone, enniatins, fumonisin B1, and T2 toxin produced by Fusarium spp., sterigmatocystin produced by Aspergillus spp. and AAL toxin produced by Alternaria alternata were used. The kinetics of the decay of mycotoxins exposed to plasma discharge was monitored. All pure mycotoxins exposed to CAPP were degraded almost completely within 60 s. Degradation rates varied with mycotoxin structure: fumonisin B1 and structurally related AAL toxin were degraded most rapidly while sterigmatocystin exhibited the highest resistance to degradation. As compared to pure compounds, the degradation rates of mycotoxins embedded in extracts of fungal cultures on rice were reduced to a varying extent. Our results show that CAPP efficiently degrades pure mycotoxins, the degradation rates vary with mycotoxin structure, and the presence of matrix slows down yet does not prevent the degradation. CAPP appears promising for the decontamination of food commodities with mycotoxins confined to or enriched on surfaces such as cereal grains.

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Influence of high intensive dry mixing and calendering on relative electrode resistivity determined via an advanced two point approach

Westphal

Mainusch

Meyer

et al. 2017

Journal of Energy Storage

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Investigations of an atmospheric pressure plasma jet by optical emission spectroscopy

Förster¹,

Mohr²,

Viöl³

2005

Surface and Coatings Technology

131

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Wolfgang Viöl

Characterization of DBD plasma source for biomedical applications

Atmospheric pressure plasma in dermatology: Ulcus treatment and much more

Plasma-Based Degradation of Mycotoxins Produced by Fusarium, Aspergillus and Alternaria Species

Influence of high intensive dry mixing and calendering on relative electrode resistivity determined via an advanced two point approach

Investigations of an atmospheric pressure plasma jet by optical emission spectroscopy

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