Reprint

Recent Advances in Atmospheric-Pressure Plasma Technology

Edited by
March 2023
162 pages
  • ISBN978-3-0365-6880-5 (Hardback)
  • ISBN978-3-0365-6881-2 (PDF)

This is a Reprint of the Special Issue Recent Advances in Atmospheric-Pressure Plasma Technology that was published in

Biology & Life Sciences
Chemistry & Materials Science
Computer Science & Mathematics
Engineering
Environmental & Earth Sciences
Physical Sciences
Summary

Plasma technology has arisen as a novel approach in the processing and manufacturing of novel materials in recent years. Due to its benefits, such as its superior sterilizing performance, low cost, and environmental friendliness, atmospheric pressure plasma has drawn the attention of researchers. As a result, atmospheric pressure plasma manufacturing in different configurations (plan parallel and jet plasma) is becoming more popular. The necessity to characterize these types of plasmas has greatly expanded as a result of its wide range of applications. Due to these factors, “Recent Advances in Atmospheric-Pressure Plasma Technology” Issue in the journal Applied Physics that brings together experts in all areas of experimental, computational, and theoretical research on atmospheric pressure plasmas. This Special Issue brings together cutting-edge new research on the fundamental characteristics of these plasmas as well as their applications in the fields of medicine, the food industry, agriculture, 3D printing, materials processing science, and even the automotive and aerospace industries.

Despite the fact that we were only able to touch on a small percentage of the potential applications for plasma discharge, we nevertheless hope that readers will find this reprint to be interesting and that they will discover new angles for their own future research on plasma.

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
atmospheric pressure plasma; low temperature plasma; disinfection; pathogen inactivation; plasma medicine; plasma agriculture; atmospheric pressure plasma jet; oxygen/argon admixture; electrical and optical properties; emission intensity; dose of irradiance; multiwalled carbon nanotubes; poly(dimethylsiloxane); silica; coating; hexamethyldisilazane; contact angle; wettability; hydrophobicity; surface free energy; areal roughness; low pressure cold plasma; plasma torch; nano silica; numerical simulation; experimental measurement; atmospheric low-temperature plasma; reactive species; plasma disinfection; atmospheric plasma; metal 3D printing; temperature-controllable plasma gas; atmospheric pressure plasma; DBD; actuator; pitot tube; schlieren imaging; UV–NIR OES; wheat flour; dough; rheology; non-thermal plasma; dielectric barrier discharge; wheat functionality; hydration properties; microstructure; dielectric barrier discharge; partial surface discharging; discharging ratio; image processing; equivalent circuit; Manley diagram; NOx abatement; DBD diagnostic; atmospheric pressure; discharge uniformity; n/a

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