Publication details

Complex characterisation of Cr-doped α-Al 2O3 for DBD applications

Authors

ŠVANDOVÁ Lucia PAZDERKA Michal PŘIBYL Roman ŠŤASTNÝ Přemysl KELAR Jakub KELAR TUČEKOVÁ Zlata SLAVÍČEK Pavel TRUNEC Martin ČERNÁK Mirko

Year of publication 2024
Type Article in Periodical
Magazine / Source Journal of Physics D: Applied Physics
MU Faculty or unit

Faculty of Science

Citation
web https://iopscience.iop.org/article/10.1088/1361-6463/ad1f30
Doi http://dx.doi.org/10.1088/1361-6463/ad1f30
Keywords discharge ignition; dielectric barrier discharge; memory effect; charge traps
Description $\textrm{Al}_2\textrm{O}_3$ samples doped with $\textrm{Cr}_2\textrm{O}_3$ up to $10\,\textrm{vol.}\%\,(12.7\,\textrm{wt}\%)$ were investigated with respect to their electrical, structural and morphological properties relevant to their use as a dielectric barrier in dielectric barrier discharges (DBDs). The surface properties were analysed using atomic force microscopy and a scanning electron microscope. The structural properties were investigated using x-ray diffraction (XRD) analysis. Regarding electrical properties, we measured the dielectric constant of the material, the discharge ignition voltage in a coplanar configuration in the air as well as in nitrogen, and the working domains (WDs) of atmospheric pressure Townsend discharge (APTD). The charge-trapping properties of the studied samples were measured by an electrostatic voltmeter. There was observed a significant ignition voltage decrease with maximal decrease for sample doped with $1\,\textrm{vol.}\%\,\textrm{Cr}_2\textrm{O}_3$. For the samples doped with $10\,\textrm{vol.}\%$ of $\textrm{Cr}_2\textrm{O}_3$ a rapid surface potential decay was observed that is important from the viewpoint of DBDs plasma filamentation due to the so-called surface memory effect. The WDs of the APTD showed variations, and it has been significantly extended for the 5Cr sample up to at least 24?kHz compared to other samples. Thus, the results presented in this paper show the potential of Cr-doped dielectric barriers and point towards future research directions.
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