Non-Equilibrium Plasma Interactions with Biomaterials, Biological Solutions and Tissues

Bruggeman, Peter J.

doi:10.2172/1842416

Title: Non-Equilibrium Plasma Interactions with Biomaterials, Biological Solutions and Tissues

Technical Report · Tue Mar 07 00:00:00 EST 2023

DOI:https://doi.org/10.2172/1842416· OSTI ID:1842416

Bruggeman, Peter J. ^[1]

University of Minnesota, Saint Paul, MN (United States)

Cold atmospheric pressure plasma discharges offer an abundant source of reactive oxygen and nitrogen species (RONS) at room temperature enabling unique interactions with biomaterials, biological solutions and tissues. These interactions particularly with living matter are presently an important intellectual frontier in plasma science with promising potential applications ranging from human health care to advanced biomaterial processing. Exciting case studies have been reported that illustrate the huge potential of cold atmospheric plasma technology in wound healing and cancer treatment. The interaction of plasma with conducting and dielectric biomaterials such as tissue strongly influences the plasma properties. In turn this changes the impact of the plasma on the biomaterial. Particularly in the case of living matter, liquid based solutions are ubiquitous which complicates interfacial processes. The lack of insight into the underlying mechanisms of the interaction of plasma with wounds and tumors is currently a bottleneck for the further development of the technology and gives rise to many interesting scientific questions. This project was focused on plasma properties and kinetics during plasma-biomaterial interactions. Both DC pulsed and RF driven atmospheric pressure plasma jets, extensively used by the plasma community were studied. The bio-interfaces included hydrogel as a tissue model, (saline) solutions, bacteria and virus. Plasma diagnostics used include Thomson scattering, Rayleigh scattering, Raman scattering, (two-photon absorption) laser induced fluorescence, optical emission spectroscopy, absorption spectroscopy, molecular beam mass spectrometry and fast imaging allowing to determine electron densities and temperatures, ionic species, reactive species including radicals, gas temperatures, gas composition, electric fields and solution components transferred to the gas phase.

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Research Organization:: University of Minnesota, Saint Paul, MN (United States)

Sponsoring Organization:: USDOE Office of Science (SC), Fusion Energy Sciences (FES)

DOE Contract Number:: SC0016053

OSTI ID:: 1842416

Report Number(s):: DOE-MINNESOTA-16053; TRN: US2403147

Country of Publication:: United States

Language:: English

References (20)

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Foundations of atmospheric pressure non-equilibrium plasmas Bruggeman, Peter J.; Iza, Felipe; Brandenburg, Ronny Plasma Sources Science and Technology, Vol. 26, Issue 12 https://doi.org/10.1088/1361-6595/aa97af	journal	November 2017
The interaction of an atmospheric pressure plasma jet with liquid water: dimple dynamics and its impact on crystal violet decomposition Kondeti, V. S. Santosh K.; Bruggeman, Peter J. Journal of Physics D: Applied Physics, Vol. 54, Issue 4 https://doi.org/10.1088/1361-6463/abbeb5	journal	November 2020
O ^· , H ^· , and ^· OH radical etching probability of polystyrene obtained for a radio frequency driven atmospheric pressure plasma jet Kondeti, V. S. Santosh K.; Zheng, Yashuang; Luan, Pingshan Journal of Vacuum Science & Technology A, Vol. 38, Issue 3 https://doi.org/10.1116/6.0000123	journal	May 2020
Inactivation of virus and bacteria using cold atmospheric pressure air plasmas and the role of reactive nitrogen species Moldgy, Ankit; Nayak, Gaurav; Aboubakr, Hamada A. Journal of Physics D: Applied Physics, Vol. 53, Issue 43 https://doi.org/10.1088/1361-6463/aba066	journal	August 2020
Spatially and temporally resolved H and OH densities in a nanosecond pulsed plasma jet: an analysis of the radical generation, transport, recombination and memory effects Yue, Yuanfu; Jiang, Jingkai; Kondeti, V. S. Santosh K. Journal of Physics D: Applied Physics, Vol. 54, Issue 11 https://doi.org/10.1088/1361-6463/abce2a	journal	January 2021
Electric field dynamics in an atmospheric pressure helium plasma jet impinging on a substrate Mirzaee, Mahsa; Simeni Simeni, Marien; Bruggeman, Peter J. Physics of Plasmas, Vol. 27, Issue 12 https://doi.org/10.1063/5.0021837	journal	December 2020
Ion fluxes and memory effects in an Ar–O₂ modulated radiofrequency-driven atmospheric pressure plasma jet Jiang, Jingkai; Bruggeman, Peter J. Plasma Sources Science and Technology, Vol. 30, Issue 10 https://doi.org/10.1088/1361-6595/ac2045	journal	October 2021
Analysis of the Ion Conversion Mechanisms in the Effluent of Atmospheric Pressure Plasma Jets in Ar with Admixtures of O2, H2O and Air Jiang, Jingkai; Aranda Gonzalvo, Yolanda; Bruggeman, Peter J. Plasma Chemistry and Plasma Processing, Vol. 41, Issue 6 https://doi.org/10.1007/s11090-021-10202-6	journal	August 2021
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Spatially resolved absolute densities of reactive species and positive ion flux in He-O ₂ RF-driven atmospheric pressure plasma jet: touching and non-touching with dielectric substrate Jiang, Jingkai; Bruggeman, Peter J. Journal of Physics D: Applied Physics, Vol. 53, Issue 28 https://doi.org/10.1088/1361-6463/ab813d	journal	May 2020
Absolute atomic hydrogen density measurements in an atmospheric pressure plasma jet: generation, transport and recombination from the active discharge region to the effluent Yue, Y.; Kondeti, V. S. S. K.; Bruggeman, P. J. Plasma Sources Science and Technology, Vol. 29, Issue 4 https://doi.org/10.1088/1361-6595/ab7853	journal	March 2020
Effect of plasma on gas flow and air concentration in the effluent of a pulsed cold atmospheric pressure helium plasma jet Van Doremaele, E. R. W.; Kondeti, V. S. S. K.; Bruggeman, P. J. Plasma Sources Science and Technology, Vol. 27, Issue 9 https://doi.org/10.1088/1361-6595/aadbd3	journal	September 2018
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