Measurements of Temperature and Relative Concentration of Atomic Oxygen in DBD Plasma for Wound Healing and Sterilization

Authors

Bhavya Bellannagari, IntelliScience Research Institute
Aryan Tummala, IntelliScience Research Institute
Logan Byrom, College of Engineering
Arthur Dogariu, College of Engineering
Sohail H. Zaidi, San Jose State UniversityFollow

Publication Date

8-18-2025

Document Type

Article

Publication Title

Plasma Medicine

Volume

15

Issue

2

DOI

10.1615/PlasmaMed.2025059493

First Page

27

Last Page

47

Abstract

Among emerging biomedical approaches, dielectric barrier discharge (DBD) plasma has shown promise in accelerating wound healing and enhancing sterilization through the production of reactive oxygen and nitrogen species (RONS), which drive tissue regeneration. Recent studies underscore oxygen as a critical factor in radical generation at wound sites, influencing various stages of tissue repair. Consequently, monitoring oxygen concentration and plasma temperature is essential, as both hypoxic and hyperoxic conditions can impede healing. Building on oxygen’s critical role in tissue repair, a helium-based plasma sheet was developed to treat large wound areas more efficiently than conventional plasma jets. Two-photon absorption laser-induced fluorescence (TALIF) was employed to evaluate how varying plasma input parameters affect the relative concentration of atomic oxygen in helium plasma. Results show that 0.1 slpm oxygen added to helium plasma increased atomic oxygen fourfold as voltage doubled compared to helium-only plasma. Optical emission spectroscopy with SPECAIR modeling was used to estimate plasma temperature components as oxygen was added to the helium plasma to confirm that plasma still retained its nonequilibrium (Te ~ Tv > Tr ~ Tt). The antimicrobial efficacy of plasma was evaluated by exposing Escherichia coli K-12 colonies to helium-oxygen plasma, achieving an ~ 82% reduction in bacterial levels with 0.1 slpm added oxygen. Overall, this work demonstrates a promising pathway to optimize wound healing using nonthermal plasma technologies.

Keywords

atomic oxygen, bacteria mitigation, DBD plasma sheet, plasma temperatures, TALIF

Department

Mechanical Engineering

Recommended Citation

Bhavya Bellannagari, Aryan Tummala, Logan Byrom, Arthur Dogariu, and Sohail H. Zaidi. "Measurements of Temperature and Relative Concentration of Atomic Oxygen in DBD Plasma for Wound Healing and Sterilization" Plasma Medicine (2025): 27-47. https://doi.org/10.1615/PlasmaMed.2025059493