Title :
Reactive Oxygen Species Controllable Nonthermal Atmospheric Pressure Plasmas Using Coaxial Geometry for Biomedical Applications
Author :
Choon-Sang Park ; Do Yeob Kim ; Sung-O Kim
Author_Institution :
Holcombe Dept. of Electr. & Comput. Eng., Clemson Univ., Clemson, SC, USA
Abstract :
We used a coaxial geometry to create novel nonthermal and high oxygen-rich helium plasmas to enhance the reactive oxygen species concentrations under low-voltage driving conditions. The optical emission spectra of the plasma showed that the oxygen flow affected the plasma properties, without generating oxygen plasmas. Spectra intensities of oxygen peaks of 777 and 845 nm created from helium plasmas under oxygen-rich conditions were approximately two times greater than plasmas not under oxygen rich conditions. Results indicate the efficacy of oxygen-rich helium plasma jets in biomedical applications.
Keywords :
helium; oxygen; plasma applications; plasma diagnostics; plasma jets; O-He; biomedical applications; coaxial geometry; helium plasmas; nonthermal atmospheric pressure plasmas; nonthermal high-oxygen-rich helium plasmas; optical emission spectra; oxygen flow; oxygen plasmas; oxygen-rich helium plasma jets; plasma properties; pressure 1 atm; reactive oxygen species; spectra intensities; Biomedical optical imaging; Electron tubes; Helium; Optical imaging; Plasmas; Stimulated emission; Atmospheric pressure plasma jet; high oxygen-rich helium plasma; nonthermal plasma; optical emission spectra; reactive oxygen species; reactive oxygen species.;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2014.2334552
