Citácie: | 1.) | Birania, S., Attkan, A.K., Ghanghas, S., 2024. Cold Plasma: Principles and Applications, in: Kumar, N., Panghal, A., Garg, M.K. (Eds.), Nonthermal Food Engineering Operations. Wiley, pp. 141–162. https://doi.org/10.1002/9781119776468.ch4
(2024)
------------- | | 2.) | Maccaferri, C., Gherardi, M., Laurita, R., 2024. Evaluating atmospheric pressure cold plasma decontamination techniques for packaging materials: a systematic review and meta-analysis. Front. Phys. 12, 1399720. https://doi.org/10.3389/fphy.2024.1399720
(2024)
------------- | | 3.) | Dalvi-Isfahan, M et al. 2023 Recent advances of high voltage electric field technology and its application in food processing: A review with a focus on corona discharge and static electric field; JOURNAL OF FOOD ENGINEERING 353:111551; 10.1016/j.jfoodeng.2023.111551
(2023)
------------- | | 4.) | Rahman, M.Z., Oshin, E.A., Jiang, C., 2023. The Effect of Pulse Width on Nanosecond Guided Streamer Breakdown, in: 2023 IEEE Pulsed Power Conference (PPC). Presented at the 2023 IEEE Pulsed Power Conference (PPC), IEEE, San Antonio, TX, USA, pp. 1–5. https://doi.org/10.1109/PPC47928.2023.10311041
(2023)
------------- | | 5.) | Rahman, MZ, Oshin, EA and Jiang, CQ 2022 Initial Investigation of the Streamer to Spark Transition in a Hollow-Needle-to-Plate Configuration, IEEE TRANSACTIONS ON PLASMA SCIENCE 50:1942-1947, 10.1109/TPS.2022.3170346
(2022)
------------- | | 6.) | Mai-Prochnow, A 2020 Cold plasma to control biofilms on food and in the food-processing environment, In: ADVANCES IN COLD PLASMA APPLICATIONS FOR FOOD SAFETY AND PRESERVATION (ed. BermudezAguirre, D), p. 109-143, 10.1016/B978-0-12-814921-8.00004-9
(2020)
------------- | | 7.) | Wu, MC; Uehara, S; Wu, JS; Xiao, YC; Nakajima, T; Sato, T 2020 Dissolution enhancement of reactive chemical species by plasma-activated microbubbles jet in water, JOURNAL OF PHYSICS D-APPLIED PHYSICS 53, 485201, 10.1088/1361-6463/abae96
(2020)
------------- | | 8.) | P. Estifaee, X. Su, S. K. Yannam, S. Rogers, S. Mededovic Thagard: Mechanism of E. coli Inactivation by Direct-in-liquid Electrical Discharge Plasma in Low Conductivity Solutions, Scientific Reports 9, 2326 (2019), WoS
(2019)
------------- | | 9.) | Oka A., Takahashi K., Takaki K. , Ishida S., Terazawa T.: Influence of gas humidity and gas flow rate on ozone production and ethylene decomposition using dielectric barrier discharge; International Journal of Plasma Environmental Science and Technology 12 (2) (2019) 103-108, SCOPUS
(2019)
------------- | | 10.) | Mai-Prochnow A.: Cold plasma to control biofilms on food and in the food-processing environment. Advances in Cold Plasma Applications for Food Safety and Preservation. [n.l.] : Elsevier Academic Press 109-143, (2019), SCOPUS
(2019)
------------- | | 11.) | Y. Gao, N. Zhao, Y. Deng, M. Wang and B. Du, Effects of treatment time and temperature on the DC corona pretreatment performance of waste activated sludge, Plasma Sci. Technol. 20 (2018) 025501 (10pp), INDEX
(2018)
------------- | | 12.) | Gaisin, A.F., Kashapov, N.F., Kuputdinova, A.I. et al. Tech. Phys. (2018) 63: 695. https://doi.org/10.1134/S1063784218050080
(2018)
------------- | | 13.) | Al. F. Gaysin, A. Kh. Gil’mutdinov, and D. N Mirkhanov (2018) Electrolytic-plasma treatment of the surface
of a part produced with the use of additive technology, Metal Science and Heat Treatment 60:128-132, DOI: 10.1007/s11041-018-0250-1
(2018)
------------- | | 14.) | A. F. Gaisin, N. F. Kashapov (2018) Investigation of Physical Processes in the Gas Discharge Region Between Liquid Electrodes, Journal of Applied Mechanics and Technical Physics 59(4):591-593
(2018)
------------- | | 15.) | D.K. Kim, D.-H. Kang, Elevated Inactivating Efficacy of a Pulsed UVC Light-Emitting Diode System on Foodborne Pathogens on Selective Media and Food Surfaces, Applied and Environmental Microbiology 84(20): UNSP e01340-18, DOI: 10.1128/AEM.01340-18, WoS
(2018)
------------- | | 16.) | H. KAWANO, T. TAKAMATSU, Y. MATSUMURA, H. MIYAHARA, A. IWASAWA, AND A. OKINO, Influence of Gas Temperature in Atmospheric Non-Equilibrium Plasma on Bactericidal Effect, Biocontrol Science, 2018, Vol. 23, No. 4, 167−175
(2018)
------------- | | 17.) | Wang Y., Wang T.C., Yuan Y.H., Fan Y.J., Guo K.Q., Yue T.L.: LWT-Food Science and Technology 97 (2018) 530-536, WoS; SCOPUS
(2018)
------------- | | 18.) | J. Kousal, A. Shelemin, O. Kylian, et al.: In-situ monitoring of etching of bovine serum albumin using low-temperature atmospheric plasma jet, Appl. Surface Sci. 392 (2017) 1049-1054, WoS
(2017)
------------- | | 19.) | Gaisin, Al F.; Son, E. E.; Efimov, A. V.; et al., Spectral diagnostics of plasma discharge between a metal cathode and liquid anode, HIGH TEMPERATURE 55, 457-460 (2017), WoS
(2017)
------------- | | 20.) | Gaisin, Al. F., 2D numerical simulation of volume discharge with liquid anode, HIGH TEMPERATURE 55, 145-146 (2017), WoS
(2017)
------------- | | 21.) | H. A. Aboubakr, DECONTAMINATION OF FOOD AND FOOD-PROCESSING SURFACES FROM NOROVIRUS BY COLD ATMOSPHERIC-PRESSURE GASEOUS PLASMA, Thesis, UNIVERSITY OF MINNESOTA, USA
(2017)
------------- | | 22.) | GAISin Al. F.; Son E. E.; Petryakov S. Yu.: Radio-frequency capacitive discharge with flowing liquid electrodes at reduced gas pressures, PLASMA PHYSICS REPORTS 43(7) 741-748 (2017), WoS
(2017)
------------- | | 23.) | GAISin A. F., Son E. E., Kashapov N. F.: Discharge between the jet and dropping liquid cathode and metal anode; International Conference - Physics of Low Temperature Plasma (PLTP-2017): J. Phys. Conference Series 927, UNSP 012018 - CPCI-S (2017); SCOPUS
(2017)
------------- | | 24.) | Mirkhanov D.N.; GAISin Al.F.; Kuputdinova A.I.; Mukhametov R A: Electrophysical and heat properties of the discharge with liquid anode, INTERNATIONAL CONFERENCE - THE PHYSICS OF LOW TEMPERATURE PLASMA (PLTP-2017) Book Series: J. Physics Conf. Series, 927, UNSP 012017, SCOPUS
(2017)
------------- | | 25.) | A. Zahoranová, M. Henselová, D. Hudecová, B. Kaliňáková, D. Kováčik, V. Medvecká, M. Černák: Effect of Cold Atmospheric Pressure Plasma on the Wheat Seedlings Vigor and on the Inactivation of Microorganisms on the Seeds Surface, Plasma Chem. Plasma Process. 36, 397-414 (2016), cit. 67, WoS
(2016)
------------- | | 26.) | Y. Gao, Y. Deng, Y. Men: Disruption of Microbial Cell Within Waste Activated Sludge by DC Corona Assisted Pulsed Electric Field, IEEE Trans. Plasma Sci. 44, 2682-2691 (2016), WoS
(2016)
------------- | | 27.) | S. Li, I. Timoshkin, M. Maclean, et al., Oxidation and Biodecontamination Effects of Impulsive Discharges in Atmospheric Air, IEEE Trans. Plasma Sci. 44, 2145-2155 (2016), WoS
(2016)
------------- | | 28.) | Patil S., Bourke P., Cullen P. J.: Principles of Nonthermal Plasma Decontamination, Cold Plasma in Food and Agriculture: Fundamentals and Applications. London : Academic Press Ltd-Elsevier Science Ltd, (2016) 143-177 -BKCI-S; SCOPUS
(2016)
------------- | | 29.) | E. Doležalová, P. Lukes: Membrane damage and active but nonculturable state in liquid cultures of Escherichia coli treated with an atmospheric pressure plasma jet, Bioelectrochemistry 103 (2015) 7-14, WoS
(2015)
------------- | | 30.) | S. Li, I. Timoshkin, M. Maclean, et al., Fluorescence detection of hydroxyl radicals in water produced by atmospheric pulsed discharges, IEEE Trans. Dielectrics and Electrical Insulation 22, 1856-1865 (2015), WoS
(2015)
------------- | | 31.) | B. Surowsky, O. Schlueter, D. Knorr: Interactions of Non-Thermal Atmospheric Pressure Plasma with Solid and Liquid Food Systems: A Review, FOOD ENGINEERING REVIEWS 7, 82-108, (2015), WoS
(2015)
------------- | | 32.) | A. Jaworek, A.T. Sobczyk,T. Czech, A. Krupa: Corona discharge in electrospraying, J. Electrostatics 72(2) 166-178 (2014), SCI cit. 59
(2014)
------------- | | 33.) | Lu, H.; Patil, S.; Keener, K. M.; Cullen, P. J.; Bourke, P.: Bacterial inactivation by high-voltage atmospheric cold plasma: influence of process parameters and effects on cell leakage and DNA; J. APPL. MICROBIOLOGY 116 (4) 784-794 (2014), SCI
(2014)
------------- | | 34.) | Pawłat J., Samon R., Stryczewska H.D., Diatczyk J. and Gizewski, T., RF-powered atmospheric pressure plasma jet for surface treatment, , Eur. Phys. J Appl. Phys. 61 (2013) Art. No. 24322 - SCI
(2013)
------------- | | 35.) | Hansch M. A. C., Winter J., Bussiahn R., Weltmann K. D., von Woedtke T.: A systematic characterization of a novel surface dielectric barrier discharge for biomedical experiments. Plasma Medicine 3 (1-2) (2013) 27-44 - SCOPUS
(2013)
------------- | | 36.) | Pawłat J., Atmospheric pressure plasma jet for decontamination purposes, Eur. Phys. J Appl. Phys. 61 (2013) 24323 – SCI
(2013)
------------- | | 37.) | Stryczewska H. D.; Pawlat J.; Ebihara K: Non-Thermal Plasma Aided Soil Decontamination, J. Advanced Oxid. Technol. 16 (2013) 23-30 - SCI
(2013)
------------- | | 38.) | Xiong ZL; Huang QJ; Wang Z; Lu XP, Pan Y: On the Electrical Characteristic of Atmospheric Pressure Air/He/O-2/N-2/Ar Plasma Needle, IEEE Trans. Plasma Sci. 41 (2013) 1746, SCI
(2013)
------------- | | 39.) | Ponomarev A. V., Gusev A. I., Pedos M. S., Sergeev A. G., Ustyuzhanin A. V., Podymova A. S.: High-frequency generator based on pulsed excitation of the oscillating circuit for biological decontamination, Digest of Technical Papers - IEEE Pulsed Power Conference, art. no. 6627495 (2013), SCOPUS
(2013)
------------- | | 40.) | Pawlat J.: Possibility of Atmospheric Pressure Plasma Jet Application in Decontamination of Heat Sensitive Surfaces, Trans. Mat. Res. Soc. Japan 38[4] 625-628 (2013), cit. 31
(2013)
------------- | | 41.) | A. Fernandez, A. Thompson: The inactivation of Salmonella by cold atmospheric plasma treatment, Food Research International (2012) 45 (2) pp. 678 - 684
(2012)
------------- | | 42.) | I. Topala and A. Nastuta: Helium Atmospheric Pressure Plasma Jet: Diagnostics and Application for Burned Wounds Healing, in Z. Machala et al. (eds.), Plasma for Bio-Decontamination, Medicine and Food Security, NATO Science for Peace and Security Series A: Chemistry and Biology, Springer, 2012, p. 335-345, cit. 48 - SCOPUS
(2012)
------------- | | 43.) | Pawlat J. et al., Rf-Powered Atmospheric Pressure Plasma Jet For Surface Treatment, 13th International Symposium on High Pressure Low Temperature Plasma Chemistry (Hakone XIII), Kazimierz Dolny (Poland), September 9-14, p. 308-312 (2012), cit. No. 13
(2012)
------------- | | 44.) | Liang Jia-liang; Zheng Sen-hong; Ye Sheng-ying, Inactivation of Penicillium aerosols by atmospheric positive corona discharge processing, J. AEROSOL SCIENCE 54, 103-112 (2012) - SCI
(2012)
------------- | | 45.) | P. Lukeš, J.-L. Brisset, and B. R. Locke, Biological Effects of Electrical Discharge Plasma in Water and in
Gas–Liquid Environments, In: Plasma Chemistry and Catalysis in Gases and Liquids (edited by V. I. Parvulescu, M. Magureanu, P. LUKEš), Wiley, Weinheim, Germany, 309-352 (2012), citation no. 142, SCOPUS
(2012)
------------- | | 46.) | L. Leštinská: Microwave plasma optical emission spectroscopy combined with atmospheric pressure DC discharges, PhD. thesis, Comenius University Bratislava, 2012
(2012)
------------- | | 47.) | Pawlat J. et al., Ozone soil conditioning and decontamination, NATO Advanced Research Workshop 'Plasma for bio-decontamination,medicine and food security', Jasna, March 15-18 Slovakia, 2011, p.109
(2011)
------------- | | 48.) | Kong M. G.; Keidar M.; Ostrikov K.: Plasmas meet nanoparticles-where synergies can advance the frontier of medicine, JOURNAL OF PHYSICS D-APPLIED PHYSICS Volume: 44 Issue: 17 Article Number: 174018 (2011)
(2011)
------------- | | 49.) | Wu ShuQun; Wang Zhan; Huang QuanJun; et al., Study on a Room-Temperature Air Plasma for Biomedical Application,IEEE TRANSACTIONS ON PLASMA SCIENCE Volume: 39 Issue: 6 Pages: 1489-1495 (2011)
(2011)
------------- | | 50.) | V. Milosavljević, A.R. Ellingboe, S. Daniels: Influence of plasma chemistry on oxygen triplets, Eur. Phys. J. D 64 (2011) 437-445
(2011)
------------- | | 51.) | A Mraihi, N Merbahi, M Yousfi, A Abahazem and O Eichwald: Electrical and spectroscopic analysis of mono- and multi-tip pulsed corona discharges in air at atmospheric pressure, Plasma Sources Sci. Technol. 20 (2011) 065002 (12pp), SCI
(2011)
------------- | | 52.) | Lu X.P., Yan P., Ren A.S., Shao T.: Review on atmospheric pressure pulsed DC discharge. Scientia Sinica Physica, Mechanica & Astronomica, 41 (7) (2011), 801-815
(2011)
------------- | | 53.) | Xiong Q; Lu X; Xian Y; Liu J; Zou C; Xiong Z; Gong W; Chen K; Pei X; Zou F; Hu J; Jiang Z; Pan Y: Experimental investigations on the propagation of the plasma jet in the open air, J. Appl. Phys. 107 (2010) 073302 - SCI
(2010)
------------- | | 54.) | Xiong Q; Lu XP; Ostrikov K; Xian Y; Zou C; Xiong Z; Pan Y: Pulsed dc- and sine-wave-excited cold atmospheric plasma plumes: A comparative analysis, PHYSICS OF PLASMAS 17 (4) 043506, SCI cit.
(2010)
------------- | | 55.) | Pawlat J, Stryczewska HD, Ebihara K, Sterilization Techniques for Soil Remediation and Agriculture Based on Ozone and AOP, J. Adv. Oxidat. Technol. 13 (2010) 138-145 - SCI
(2010)
------------- | | 56.) | Šipoldová Z., Bio-dekontaminácia bakteriálnych spór v elektrických výbojoch, Študentská vedecká konferencia FMFI UK, Bratislava 2010, pp.111-121
(2010)
------------- | | 57.) | Pawlat J et al., Plasma sterilization for bactericidal soil
conditioning
, HAKONE XII, Trenčianske Teplice, September 12-17, 2010, 407-411, cit. no. 7, SCOPUS
(2010)
------------- | | 58.) | Schulze P, Stankiewicz A, Aicher M, et al., Gas chemical studies using corona discharge reactors, EUROPEAN PHYSICAL JOURNAL D Vol. 60 (2010) 637-644, SCI/SCOPUS
(2010)
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