[1] Nehra, V., Kumar, A., & Dwivedi, H. K. (2008). Atmospheric non-thermal plasma sources. International Journal of Engineering, 2(1), 53-68
[2] Schutze, A., Jeong, J. Y., Babayan, S. E., Park, J., Selwyn, G. S., & Hicks, R. F. (1998). The atmospheric-pressure plasma jet: a review and comparison to other plasma sources. IEEE transactions on plasma science, 26(6), 1685-1694.
[3] Fridman, A., Chirokov, A., & Gutsol, A. (2005). Non-thermal atmospheric pressure discharges. Journal of Physics D: Applied Physics, 38(2), R1.
[4] Chirokov, A., Gutsol, A., & Fridman, A. (2005). Atmospheric pressure plasma of dielectric barrier discharges. Pure and applied chemistry, 77(2), 487-495.
[5] Subedi, D. P., Joshi, U. M., & Wong, C. S. Dielectric barrier discharge (DBD) plasmas and their applications. Plasma Science and Technology for Emerging Economies: An AAAPT Experience. 693-737 (2017).
[6] Xu, X. (2001). Dielectric barrier discharge properties and applications. Thin solid films, 390(1-2), 237-242.
[7] Kogelschatz, U. (2003). Dielectric-barrier discharges: their history, discharge physics, and industrial applications. Plasma chemistry and plasma processing, 23(1), 1-46.
[8] Wagner, H. E., Brandenburg, R., Kozlov, K. V., Sonnenfeld, A., Michel, P., & Behnke, J. F. (2003). The barrier discharge: basic properties and applications to surface treatment. Vacuum, 71(3), 417-436.
[9] Huang, X., Zhou, S., & Liu, M. (2018). Investigation of the coupled volume dielectric barrier discharge for ozone formation in open atmospheric air. IEEE Transactions on Plasma Science, 46(8), 2887-2893.
[10] Šimek, M., Ambrico, P. F., De Benedictis, S., Dilecce, G., Prukner, V., & Schmidt, J. (2010). behaviour in a N2–NO surface dielectric barrier discharge in the modulated ac regime at atmospheric pressure. Journal of Physics D: Applied Physics, 43(12), 124003.
[11] Ran, S., Wang, J., Lei, B., Liu, S., Li, J., Wang, Y., ... & Tang, J. (2022). Numerical simulation of coaxial–coplanar dielectric-barrier discharge in atmospheric helium. AIP Advances, 12(5).
[12] Subrata Roy, Bhaswati Choudhury, Judith Johnsonو Alexander Schindler‑Tyka (2021) Application of dielectric barrier discharge for improving food shelf life and reducing spoilage, Scientific Reports 11, 19200
[13] f. Ambrico, Milan Simek, caterina Rotolo, Massimo Morano, Angelantonio Minafra, Marianna Ambrico, Stefania pollastro, Donato Gerin, francesco faretra, Rita M. De Miccolis Angelini (2020) surface Dielectric Barrier Discharge plasma: a suitable measure against fungal plant pathogens, Scientific Reports 10, 3673
[14] Samira Elaissi and Norah A. M. Alsaif, (2023) Modelling of Nonthermal Dielectric Barrier Discharge Plasma at Atmospheric Pressure and Role of Produced Reactive Species in Surface Polymer Microbial Purification, Polymers, 15, 1235
[15] Audier, P., Rabat, H., Leroy, A., & Hong, D. (2014). Experimental investigation of a surface DBD plasma actuator at atmospheric pressure in different N2/O2 gas mixtures. Plasma Sources Science and Technology, 23(6), 065045.
[16] Kargarian, A., Jamali, S., & Bakhshzad Mahmoudi, M. (2024). Design and Construction of a Plasma Generation Device Using the Surface Dielectric Barrier Discharge (SDBD) Method in a Laboratory Scale. Iranian Journal of Applied Physics.
[17] Ashpis, D. E., Laun, M. C., & Griebeler, E. L. (2017). Progress toward accurate measurement of dielectric barrier discharge plasma actuator power. AIAA Journal, 55(7), 2254-2268.
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