Nanomaterials (Jun 2021)

Characteristics of Plasma Flow for Microwave Plasma Assisted Aerosol Deposition

  • In-Je Kang,
  • Chang-Hyun Cho,
  • Hyonu Chang,
  • Soo-Ouk Jang,
  • Hyun-Jae Park,
  • Dae-Gun Kim,
  • Kyung-Min Lee,
  • Ji-Hun Kim

DOI
https://doi.org/10.3390/nano11071705
Journal volume & issue
Vol. 11, no. 7
p. 1705

Abstract

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To validate the possibility of the developed microwave plasma source with a novel structure for plasma aerosol deposition, the characteristics of the plasma flow velocity generated from the microwave plasma source were investigated by a Mach probe with pressure variation. Simulation with the turbulent model was introduced to deduce calibration factor of the Mach probe and to compare experimental measurements for analyses of collisional plasma conditions. The results show calibration factor does not seem to be a constant parameter and highly dependent on the collision parameter. The measured plasma flow velocity, which witnessed fluctuations produced by a shock flow, was between 400 and 700 m/s. The optimized conditions for microwave plasma assisted aerosol deposition were derived by the results obtained from analyses of the parameters of microwave plasma jet. Under the optimized conditions, Y2O3 coatings deposited on an aluminum substrate were investigated using scanning electron microscope. The results presented in this study show the microwave plasma assisted aerosol deposition with the developed microwave plasma source is highly feasible for thick films with >50 μm.

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