Formation of reactive chlorine species in Cl⁻ solutions treated by plasma-supplied O atoms and some implications for biological inactivation functions

Abstract: Plasma-activated saline solution (PAS) has attracted increased attention in recent years due to wide range of promising applications including sterilization, water treatment, wound healing, and cancer treatment. As we know, reactive oxygen and nitrogen species (RONS) play an important role in plasma applications and its production and action mechanisms have been intensively studied. However, less attention has been paid to the role of reactive chlorine species (RCS). Therefore, researching the mechanism underl… Show more

“…Plasma discharge methods include corona, glow, dielectric barrier, gliding arc, and high-frequency discharges [1,2]. Plasma is widely used in biomedicine [3][4][5], food processing [6], material modification [7], chemical engineering [8][9][10][11], and other fields. The principle of plasma sterilization is that the plasma discharge process can generate ultraviolet rays, strong electric fields, and various strong active particles, which can effectively destroy microbial cell walls, cell proteins, enzymes, and nucleic acids and have a good inactivation effect on bacteria [12][13][14].…”

Effect of power supply parameters on discharge characteristics and sterilization efficiency of magnetically driven rotating gliding arc

“…Plasma discharge methods include corona, glow, dielectric barrier, gliding arc, and high-frequency discharges [1,2]. Plasma is widely used in biomedicine [3][4][5], food processing [6], material modification [7], chemical engineering [8][9][10][11], and other fields. The principle of plasma sterilization is that the plasma discharge process can generate ultraviolet rays, strong electric fields, and various strong active particles, which can effectively destroy microbial cell walls, cell proteins, enzymes, and nucleic acids and have a good inactivation effect on bacteria [12][13][14].…”

Effect of power supply parameters on discharge characteristics and sterilization efficiency of magnetically driven rotating gliding arc