Quantifying hydroxyl radicals generated by a low-temperature plasma using coumarin: methodology and precautions

The detection and quantification of hydroxyl radicals (HO&z.rad;) generated by low-temperature plasmas (LTPs) are crucial for understanding their role in diverse applications of plasma radiation. In this study, the formation of HO&z.rad; in the irradiated aqueous phase is investigated at various plasma parameters, by probing them indirectly using the coumarin molecule. We propose a quantification methodology for these radicals, combining spectrophotometry to study the coumarin reaction with hydroxyl radicals and fluorimetry to evaluate the formation yield of the hydroxylated product, 7-hydroxycoumarin. Additionally, we thoroughly examine and discuss the impact of pH on this quantification process. This approach enhances our comprehension of HO&z.rad; formation during LTP irradiation, adding valuable insights to plasma's biological applications. The detection and quantification of hydroxyl radicals (HO&z.rad;) generated by low-temperature plasmas (LTPs) are crucial for understanding their role in diverse applications of plasma radiation.