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An atmospheric pressure non-self-sustained glow discharge in between metal/metal and metal/liquid electrodes

Ivana Sremački (UGent) , Mikhail Gromov (UGent) , Christophe Leys (UGent) , Rino Morent (UGent) , Rony Snyders and Anton Nikiforov (UGent)
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Abstract
Non-thermal plasmas operating at high pressure attract increasing attention for a variety of applications as an alternative to conventional chemical processes. In this study, an atmospheric pressure direct current non-self-sustained discharge in nitrogen is investigated as a source of non-thermal plasma capable of operating in a glow regime. The discharge is sustained between an internal source of ionization and a metal or liquid electrode and studied by electrical diagnostics as well as by spectroscopy methods. The work is focused on the determination of the discharge properties including vibrational and gas temperature. The effect of the liquid electrode on the discharge properties is studied and analyzed. The mechanisms of the discharge sustaining and pathways of nitrogen state excitation are discussed.
Keywords
liquid anode, nitrogen, non-self-sustained glow discharge, optical emission spectroscopy, vibrational excitation, INTENSITY RATIO, FIELD STRENGTH, SPECTRAL BANDS, BARRIER DISCHARGE, NITROGEN, PLASMA, AIR, DENSITY

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MLA
Sremački, Ivana, et al. “An Atmospheric Pressure Non-Self-Sustained Glow Discharge in between Metal/Metal and Metal/Liquid Electrodes.” PLASMA PROCESSES AND POLYMERS, 2020, pp. 1–12.
APA
Sremački, I., Gromov, M., Leys, C., Morent, R., Snyders, R., & Nikiforov, A. (2020). An atmospheric pressure non-self-sustained glow discharge in between metal/metal and metal/liquid electrodes. PLASMA PROCESSES AND POLYMERS, 1–12.
Chicago author-date
Sremački, Ivana, Mikhail Gromov, Christophe Leys, Rino Morent, Rony Snyders, and Anton Nikiforov. 2020. “An Atmospheric Pressure Non-Self-Sustained Glow Discharge in between Metal/Metal and Metal/Liquid Electrodes.” PLASMA PROCESSES AND POLYMERS, 1–12.
Chicago author-date (all authors)
Sremački, Ivana, Mikhail Gromov, Christophe Leys, Rino Morent, Rony Snyders, and Anton Nikiforov. 2020. “An Atmospheric Pressure Non-Self-Sustained Glow Discharge in between Metal/Metal and Metal/Liquid Electrodes.” PLASMA PROCESSES AND POLYMERS: 1–12.
Vancouver
1.
Sremački I, Gromov M, Leys C, Morent R, Snyders R, Nikiforov A. An atmospheric pressure non-self-sustained glow discharge in between metal/metal and metal/liquid electrodes. PLASMA PROCESSES AND POLYMERS. 2020;1–12.
IEEE
[1]
I. Sremački, M. Gromov, C. Leys, R. Morent, R. Snyders, and A. Nikiforov, “An atmospheric pressure non-self-sustained glow discharge in between metal/metal and metal/liquid electrodes,” PLASMA PROCESSES AND POLYMERS, pp. 1–12, 2020.
@article{8641234,
  abstract     = {Non-thermal plasmas operating at high pressure attract increasing attention for a variety of applications as an alternative to conventional chemical processes. In this study, an atmospheric pressure direct current non-self-sustained discharge in nitrogen is investigated as a source of non-thermal plasma capable of operating in a glow regime. The discharge is sustained between an internal source of ionization and a metal or liquid electrode and studied by electrical diagnostics as well as by spectroscopy methods. The work is focused on the determination of the discharge properties including vibrational and gas temperature. The effect of the liquid electrode on the discharge properties is studied and analyzed. The mechanisms of the discharge sustaining and pathways of nitrogen state excitation are discussed.},
  author       = {Sremački, Ivana and Gromov, Mikhail and Leys, Christophe and Morent, Rino and Snyders, Rony and Nikiforov, Anton},
  issn         = {1612-8850},
  journal      = {PLASMA PROCESSES AND POLYMERS},
  keywords     = {liquid anode,nitrogen,non-self-sustained glow discharge,optical emission spectroscopy,vibrational excitation,INTENSITY RATIO,FIELD STRENGTH,SPECTRAL BANDS,BARRIER DISCHARGE,NITROGEN,PLASMA,AIR,DENSITY},
  language     = {eng},
  pages        = {1--12},
  title        = {An atmospheric pressure non-self-sustained glow discharge in between metal/metal and metal/liquid electrodes},
  url          = {http://dx.doi.org/10.1002/ppap.201900191},
  year         = {2020},
}

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