Citations: | 1.) | Zhang, M., Fu, Q., Li, C., Li, D., Pan, Y., 2024. Realization of meter-scale and high-density of charged particles by surface dielectric barrier discharge. Physica Scripta 99. https://doi.org/10.1088/1402-4896/ad7356
(2024)
------------- | | 2.) | Zhang, L., Guo, Y., Tie, J., Fu, Y., Luo, H., 2024. Air Disinfection by Atmospheric Pressure Grating-like Dielectric Barrier Discharge Plasma [大气压栅状介质阻挡放电等离子体空气消毒研究]. Gaodianya Jishu/High Voltage Engineering 50, 2972–2987. https://doi.org/10.13336/j.1003-6520.hve.20231161
(2024)
------------- | | 3.) | Zhang, K., Bi, R., Tidholm, J., Ängeby, J., Richter, M., Ehn, A., 2024. Detection of Nickel Atoms Released from Electrodes in Spark Discharges Using Laser-Induced Fluorescence. Applied Spectroscopy. https://doi.org/10.1177/00037028241285150
(2024)
------------- | | 4.) | Park, J.Y., Baek, K.H., Lee, H., Song, J.-S., Park, S., Jee, S.H., Jung, S., Choi, J., Lee, S., Park, S., 2024. Extension of Tomato Shelf Life via Nitric Oxide Treatment Using Air Plasma. Plasma Chemistry and Plasma Processing. https://doi.org/10.1007/s11090-024-10520-5
(2024)
------------- | | 5.) | Moradkhani, G., Profili, J., Destrieux, A., Robert, M., Laroche, G., Elkoun, S., Mighri, F., Vuillaume, P.Y., 2024. Plasma-Enhanced Alginate Pre-Treatment of Short Flax Fibers for Improved Thermo-Mechanical Properties of PLA Composites. Journal of Composites Science 8. https://doi.org/10.3390/jcs8030106
(2024)
------------- | | 6.) | Molina, R., López-Santos, C., Balestrasse, K., Gómez-Ramírez, A., Sauló, J., 2024. Enhancing Essential Oil Extraction from Lavandin Grosso Flowers via Plasma Treatment. International Journal of Molecular Sciences 25. https://doi.org/10.3390/ijms25042383
(2024)
------------- | | 7.) | Mehrabifard, R., Kabarkouhi, Z., Rezaei, F., Hajisharifi, K., Mehdian, H., 2024. Physical Insight into the Synergistic Enhancement of CAP Therapy Using Static Magnetic Field. Brazilian Journal of Physics 54. https://doi.org/10.1007/s13538-024-01501-2
(2024)
------------- | | 8.) | Marcinauskas, L., Kavaliauskas, Ž., Jonynaitė, K., Uscila, R., Aikas, M., Keršulis, S., Strakšys, A., Stirkė, A., Stankevič, V., 2024. The Influence of Voltage on Gliding Arc Discharge Characteristics, the Composition of Air Plasma, and the Properties of BG-11 Medium. Applied Sciences (Switzerland) 14. https://doi.org/10.3390/app14052135
(2024)
------------- | | 9.) | Liu, J., Nie, L., Liu, D., Lu, X., 2024. Falling liquid droplets discharge. Journal of Physics D: Applied Physics 57. https://doi.org/10.1088/1361-6463/ad26ce
(2024)
------------- | | 10.) | Filgueira, G.A., Pessoa, R.S., Yamamoto, R.K., Alves, C., Da Silva Sobrinho, A.S., 2024. Plasma-Activated Tap Water by Gliding Arc Discharge Through Bubbles Using an Inverted Reactor Approach. IEEE Transactions on Plasma Science. https://doi.org/10.1109/TPS.2024.3431942
(2024)
------------- | | 11.) | Chen, L., Wu, H., Chen, Z., Wang, Y., Yi, L., Jiang, W., Zhang, Y., 2024. Breakdown modes in nanosecond pulsed micro-discharges at atmospheric pressure. Journal of Physics D: Applied Physics 57. https://doi.org/10.1088/1361-6463/ad146a
(2024)
------------- | | 12.) | Barkhordari, A., Karimian, S., Shahsavari, S., Krawczyk, D., Rodero, A., 2024. Influence of the argon admixture on the reactive oxide species formation inside an atmospheric pressure oxygen plasma jet. Scientific Reports 14. https://doi.org/10.1038/s41598-024-54111-y
(2024)
------------- | | 13.) | Alashti, F.J., Sohbatzadeh, F., Ahmadian, S., Kenari, R.E., Nazifi, E., 2024. Impact of atmospheric cold plasma pretreatment on morphology, structure, and chemical properties of clove (Syzygium aromaticum). LWT 191. https://doi.org/10.1016/j.lwt.2023.115639
(2024)
------------- | | 14.) | Song, YJ et al 2023 Preparation of highly efficient antibacterial non-woven by facile plasma-induced graft polymerizing of DADMAC; PLASMA SCIENCE & TECHNOLOGY 25(11):114001; 10.1088/2058-6272/acd32b
(2023)
------------- | | 15.) | August, J; Dufour, T and Bailly, C 2023 Release of Arabidopsis seed dormancy by cold atmospheric plasma relies on cytoplasmic glass transition; JOURNAL OF PHYSICS D-APPLIED PHYSICS 56(41):415202; 10.1088/1361-6463/ace36e
(2023)
------------- | | 16.) | Piotrowski, WM et al. 2023 Critical evaluation of the thermometric performance of ratiometric luminescence thermometers based on Ba-3(VO4)(2):Mn5+,Nd3+ for deep-tissue thermal imaging; JOURNAL OF MATERIALS CHEMISTRY C 11(20):6713-6723; 10.1039/d3tc00249g
(2023)
------------- | | 17.) | Ebrahimi, E et al. 2023 Surface Barrier Discharge Remote Plasma Inactivation of Aspergillus niger ATCC 10864 Spores for Packaged Crocus sativus; FOOD AND BIOPROCESS TECHNOLOGY; 10.1007/s11947-023-03083-4
(2023)
------------- | | 18.) | Khlyustova, AV et al. 2023 On the Dynamics of the Development and the Results of the Action of Electric Discharge in an Aquatic Environment; JOURNAL OF SURFACE INVESTIGATION 17(1):223-227; 10.1134/S1027451023010305
(2023)
------------- | | 19.) | Zhao, W., Alwahabi, Z.T., 2023. Two‐dimensional imaging of excited N2 molecules produced in an air purification device. Journal of Visualization 26, 509–516. https://doi.org/10.1007/s12650-022-00895-y
(2023)
------------- | | 20.) | Wang, Q., Wu, H., Wang, Y., Zhang, Y., Jiang, W., Zhang, Y., 2023. Influence of pulse width on the breakdown process of nanosecond pulse discharge at low pressure. Journal of Physics D: Applied Physics 56. https://doi.org/10.1088/1361-6463/acec86
(2023)
------------- | | 21.) | Ma, D., Zheng, K., Li, Z., Lin, H., Gong, Y., Yu, S., Tang, B., Xue, Y., 2023. TiMoTa multi-component transition layer: Plasma in-situ diagnosis, mechanical properties and effect on diamond adhesion. Surface and Coatings Technology 472. https://doi.org/10.1016/j.surfcoat.2023.129876
(2023)
------------- | | 22.) | Li, M., Hou, Z., Dai, Y., Song, Z., Xiong, Z., 2023. Capture of NH3 using air plasmas to form NH4NO3 for N recycling: Impact factors and mechanisms. Journal of Cleaner Production 428. https://doi.org/10.1016/j.jclepro.2023.139434
(2023)
------------- | | 23.) | Gobey, K., Bennett, A., Frumosu, L., Sansom, C., King, P., Urayama, T., 2023. Plasma Treatment for Anti-Soiling and Increased Washing Efficiency for Water Consumption Reduction in Concentrating Solar Power Applications, in: AIP Conference Proceedings. https://doi.org/10.1063/5.0149460
(2023)
------------- | | 24.) | Fallahi, N., Hosseini, S.M., Shokri, B., Khani, M., 2023. Vacuum Plasma Investigation for Pistachio Microorganisms Inactivation: Physical and Chemical Study. Journal of Agricultural Science and Technology 25, 1073–1087.
(2023)
------------- | | 25.) | Chalise, R., Shrestha, P., Sharma, S., Basnet, S., Mishra, L.N., Khanal, R., 2023. Enhancing seed germination and growth parameters of cauliflower (Brassica oleracea, variety Botrytis) using plasma-activated water. Journal of Physics D: Applied Physics 56. https://doi.org/10.1088/1361-6463/acf588
(2023)
------------- | | 26.) | Cacot, L., Carnide, G., Kahn, M.L., Naudé, N., Stafford, L., Clergereaux, R., 2023. Soft polymerization of hexamethyldisiloxane by coupling pulsed direct-liquid injections with dielectric barrier discharge. Plasma Processes and Polymers 20. https://doi.org/10.1002/ppap.202200165
(2023)
------------- | | 27.) | Babalola, S.O., Daramola, M.O., Iwarere, S.A., 2023. An investigation on the removal of tramadol analgesic in deionized water and final wastewater effluent using a novel continuous flow dielectric barrier discharge reactor. Journal of Water Process Engineering 56. https://doi.org/10.1016/j.jwpe.2023.104294
(2023)
------------- | | 28.) | K.-T. Yen, C.-H. Wu, P.-H. Wang, P.-H. Tuan, K.-W. Su: Investigating the Threshold Conditions of Air Breakdown with Mode-Locked Q-Switched Laser Pulses, and the Temporal Dynamics of Induced Plasma with Self-Scattering Phenomenon, Appl. Sci. 12, 41 (2022), citation no. 39, INDEX
(2022)
------------- | | 29.) | Q. Wang, R. K. Pal, H.-W. Yen, S. P. Naik, M. K. Orzeszko, A. Mazzeo, D. Salvi: Cold plasma from flexible and conformable paper-based electrodes for fresh produce sanitation: Evaluation of microbial inactivation and quality changes, Food Control 137, 108915 (2022), citation Machala, INDEX
(2022)
------------- | | 30.) | P. J. Villegas, D. González Castro, J. A. Martínez-Esteban, D. B. Fernández: High-Voltage LC-Parallel Resonant Converter with Current Control to Detect Metal Pollutants in Water through Glow-Discharge Plasma, Electronics 11 (4), 644 (2022), citation no. 11, INDEX
(2022)
------------- | | 31.) | E. Cejas, J. C. Chamorro, L. Prevosto: Quantitative Schlieren Diagnostics Applied to a Millisecond Pulsed-DC Hybrid Discharge in Atmospheric Pressure Air, Plasma Chem. Plasma Process. X, xxx (2022), citation no. 3, INDEX
(2022)
------------- | | 32.) | Wang, XC, Gao, SH and Zhang, YT 2022 Numerical study on peak current in pulse-modulated radio-frequency discharges with atmospheric helium-oxygen admixtures PLASMA SCIENCE & TECHNOLOGY 24:085401, 10.1088/2058-6272/ac67bf
(2022)
------------- | | 33.) | Sudarsan, A and Keener, K 2022 Inactivation of spoilage organisms on baby spinach leaves using high voltage atmospheric cold plasma (HVACP) and assessment of quality, INNOVATIVE FOOD SCIENCE & EMERGING TECHNOLOGIES 79:103023, 10.1016/j.ifset.2022.103023
(2022)
------------- | | 34.) | Watanabe, R et al. 2022 Potential generation of nano-sized mist by passing a solution through dielectric barrier discharge, SCIENTIFIC REPORTS 12:10526, 10.1038/s41598-022-14670-4
(2022)
------------- | | 35.) | Shao, KT et al., 2022 Active learning-guided exploration of parameter space of air plasmas to enhance the energy efficiency of NOx production, PLASMA SOURCES SCIENCE TECHNOLOGY 31:055018, 10.1088/1361-6595/ac6e04
(2022)
------------- | | 36.) | Tiwari, N, Misra, VC and Ghorui, S 2022 Study of unique aspects of oxidative-nitrosative environment in a radio frequency cold plasma device, VACUUM 205:111407, 10.1016/j.vacuum.2022.111407
(2022)
------------- | | 37.) | Zhao, WX and Alwahabi, ZT 2022 Two-dimensional imaging of excited N-2 molecules produced in an air purification device, JOURNAL OF VISUALIZATION, 10.1007/s12650-022-00895-y
(2022)
------------- | | 38.) | Trunec, D et al. 2022 Chemical composition of gaseous products generated by coplanar barrier discharge in air and N-2/O-2 mixtures, PLASMA SOURCES SCIENCE TECHNOLOGY 31:115011, 10.1088/1361-6595/ac9c8f
(2022)
------------- | | 39.) | Zembi J. et al 2022 Experimental and Numerical Investigation of the Flow Field Effect on Arc Stretching for a J-type Spark Plug, SAE Technical Papers, DOI: 10.4271/2021-24-0020
(2022)
------------- | | 40.) | Cacot, L et al 2022 Soft polymerization of hexamethyldisiloxane by coupling pulsed direct-liquid injections with dielectric barrier discharge, PLASMA PROCESSES AND POLYMERS, 10.1002/ppap.202200165
(2022)
------------- | | 41.) | T. Gerling, C. Wilke, M. M. Becker: Fast electrical diagnostics and dispersion relation for ion density determination in an atmospheric pressure argon plasma, J. Phys. D. Appl. Phys. 54 (8), 085201 (2021), citation no. 34, WoS
(2021)
------------- | | 42.) | W. de Souza Paiva, F.E. de Souza Neto, E. de Souza Paiva, A. C. de Lima Batista: Fungal chitosan as membranous material modified by atmospheric plasma, Research, Society and Research, Society and Development 10 (1), e9210111543 (2021), citation Machala, INDEX
(2021)
------------- | | 43.) | I. Ramireddy, C. H. Lai, B. S. Low, C. Li, J. H. Hsieh, J. W. Lee, H. Y. Wu: Cold Atmospheric Helium Plasma Induces Apoptosis by Increasing Intracellular Reactive Oxygen and Nitrogen Species, Plasma Medicine X, xxx (2021), citation no. X, INDEX
(2021)
------------- | | 44.) | B. M. Iqdiam, E. Feizollahi, M. F. Arif, B. Jeganathan, T. Vasanthan, M. S. Thilakarathna, M. S. Roopesh: Reduction of T-2 and HT-2 mycotoxins by atmospheric cold plasma and its impact on quality changes and germination of wheat grains, J. Food Sci. X, xxx (2021), citation no. 46, WoS
(2021)
------------- | | 45.) | I. M. Piskarev: The Formation of Ozone-Hydroxyl Mixture in Corona Discharge and Lifetime of Hydroxyl Radicals, IEEE Trans. Plasma Sci. 49 (4), 1363-1372 (2021), citation no. 19, WoS
(2021)
------------- | | 46.) | R. Barni, P. Alex, A. Salanti, C. Canevali, L. Zoia, M. Orlandi, C. Riccardi: Characterization of the electrical and optical properties of a gliding arc tornado device, Eur. Phy. J. D. 75, 147 (2021), citation no. 10, WoS
(2021)
------------- | | 47.) | A. M. Adam, B. Yadav, A. Prasad, B. Gautam,Y. Tsuib, M.S.Roopesh: Salmonella inactivation and rapid cooling of fresh cut apples by plasma integrated low-pressure cooling, Food Res. Int. 147, 110464 (2021), citation Machala, WoS
(2021)
------------- | | 48.) | E. Feizollahi, M. S. Roopesh: Degradation of Zearalenone by Atmospheric Cold Plasma: Effect of Selected Process and Product Factors, Food Bioprocess Technol. 27 (32), 2107-2119 (2021), citation no. 39, WoS
(2021)
------------- | | 49.) | A. M. Adam, B. Jeganathan,T. Vasanthan, M.S. Roopesh: Dipping fresh-cut apples in citric acid before plasma integrated low-pressure cooling improves Salmonella and polyphenol oxidase inactivation, J. Sci. Food Agriculture X, xxx (2021), citation no. X, INDEX
(2021)
------------- | | 50.) | K. Barman, M. Mudgal, R. Rane, S. Bhattacharjee: Effect of magnetic field on optical emission from cold atmospheric pressure microplasma jet, Phys. Plasmas 28, 123503 (2021), citation no. 15, WoS
(2021)
------------- | | 51.) | A Sudarsan, K. M. Keener: Inactivation of Salmonella enterica serovars and Escherichia coli O157: H7 surrogate from baby spinach leaves using high voltage atmospheric cold plasma (HVACP), LWT X, xxx (2021), citation no. X, INDEX
(2021)
------------- | | 52.) | Gobey K., et al 2021 Characterisation of an air plasma torch for in-situ surface processing,
14th International Conference and Exhibition on Laser Metrology, Machine Tool, CMM and Robotic Performance, LAMDAMAP 2021, pp. 103 - 110
(2021)
------------- | | 53.) | Yu Z.et al 2021 Plasma Real-time Diagnostics Based on Visual Image Recognition, Proceedings of 2021 IEEE 4th International Electrical and Energy Conference, CIEEC 2021, art. no. 9510867, DOI: 10.1109/CIEEC50170.2021.9510867
(2021)
------------- | | 54.) | Britun N., Gamaleev V., and Hori M. 2021 Evidence of near-the-limit energy cost NO formation in atmospheric spark discharge, Plasma Sources Science and Technology 30(8):08LT02, DOI: 10.1088/1361-6595/ac12bf
(2021)
------------- | | 55.) | E. Cejas, B. Mancinelli, L. Prevosto: Modelling of an Atmospheric–Pressure Air Glow Discharge Operating in High-Gas Temperature Regimes: The Role of the Associative Ionization Reactions Involving Excited Atoms, Plasma 3 (1) 12-26 (2020), citation no. 39, INDEX
(2020)
------------- | | 56.) | X. Pei, D. Gidon, D. B. Graves: Specific energy cost for nitrogen fixation as NOx using DC glow discharge in air, J. Phys. D: Appl. Phys. 53 (4), 044002 (2020), citation no. 43, WoS
(2020)
------------- | | 57.) | K. Lotfy: The impact of the carrier gas composition of non-thermal atmospheric pressure plasma jet for bacteria sterilization, AIP Advances 10, 015303 (2020), citation no. 67, WoS
(2020)
------------- | | 58.) | S. Mohsenimehr, M. R. Khani, N. Fani, M. Baghaban Eslaminejad, B. Shokri, A. Ghassami: Surface modification of PLA scaffold Using Radio Frequency (RF) Nitrogen Plasma in Tissue Engineering application, Surf. Topogr.: Metrol. Prop. 8 (1) 015012 (2020), citation no. 38, WoS
(2020)
------------- | | 59.) | H. Yamada , S. Kato , T. Shimizu, M. Fujiwara, Y. Fujiwara , J. Kim, S. Ikehara, N. Shimizu, Y. Ikehara , H. Sakakita: Striation phenomena in a low temperature atmospheric pressure neon plasma jet by optical emission spectroscopy, Phys. Plasmas 27, 022107 (2020), citation no. 1, WoS
(2020)
------------- | | 60.) | S. Rassou, A. Piquemal, N. Merbahi, F. Marchal, M. Yousfi: Experimental characterization of argon/air mixture microwave plasmas using optical emission spectroscopy, J. Molec. Spectrosc. 370, 111278 (2020), citation no. 30, WoS
(2020)
------------- | | 61.) | K. Barman, D. Behmani, M. Mudgal, S. Bhattacharjee, R. S Rane, S. K. Nema: Characteristics of atmospheric pressure micro-plasma jets in two different modes of excitation depending upon wave amplitude and frequency, Plasma Research Express 2, 025007 (2020), citation no. 30, INDEX
(2020)
------------- | | 62.) | J. Žigon, J. Kovač, R. Zaplotnik, J. Saražin, M. Šernek, M. Petrič, S. Dahle: Enhancement of strength of adhesive bond between wood and metal using atmospheric plasma treatment, Cellulose X, xxx (2020), citation Machala, INDEX
(2020)
------------- | | 63.) | Ch. Lingenfelder, J. Kampmeier, D. Russ, R. Wittig, Ch. Diener, J. U. Werner: Depth Effect of Cold Atmospheric Pressure Plasma in Keratitis Therapy: A Corneal Stroma Tissue Model, Klin. Monbl. Augenheilkd 16. Ch. Lingenfelder, J. Kampmeier, D. Russ, R. Wittig, Ch. Diener, J. U. Werner: Depth Effect of Cold Atmospheric Pressure Plasma in Keratitis Therapy: A Corneal Stroma Tissue Model, Klin. Monbl. Augenheilkd 237 (9), 1087-1092 (2020), citation no. 17, WoS
(2020)
------------- | | 64.) | E. Feizollahi, B. Iqdiam,T. Vasanthan, M. S. Thilakarathna, M. S. Roopesh: Effects of Atmospheric-Pressure Cold Plasma Treatment on Deoxynivalenol Degradation, Quality Parameters, and Germination of Barley Grains, Appl. Sci. 10 (10), 3530 (2020), citation no. 33, WoS
(2020)
------------- | | 65.) | T. Michler, O. Toedter, T. Koch: Spatial and time resolved determination of the vibrational temperature in ignition sparks by variation of the dwell time, SN Appl. Sci. 2, 1311 (2020), citation no. 37, WoS
(2020)
------------- | | 66.) | P. Ghosh, A. Ivaturi, D. Bhattacharya, J. Bowen, T. Nixon, J. Kowal, N. Braithwaite, S. Krishnamurthy: Efficient hole transport material formed by atmospheric pressure plasma functionalization of Spiro-OMeTAD, Materials Today Chem. 17, 100321 (2020), citation no. 43, WoS
(2020)
------------- | | 67.) | J. Tomeková, S. Kyzek, V. Medvecká, E. Gálová, A. Zahoranová: Influence of Cold Atmospheric Pressure Plasma on Pea Seeds: DNA Damage of Seedlings and Optical Diagnostics of Plasma, Plasma Chem. Plasma Process. X, xxx (2020), citation no. 27, WoS
(2020)
------------- | | 68.) | J. Reiprich, N. A. Isaac, L. Schlag, M. Hopfeld, J. Pezoldt, H. O. Jacobs: Corona, Gallium Oxide (Ga2O3), Nanowires, Plasma, Vapor Liquid Solid, Vapor Phase Epitaxy Export, Materials Science Forum 1004, 102-109 (2020), citation no. 43, INDEX
(2020)
------------- | | 69.) | L. Xu, X. Yepez, B. Applegate, K. M. Keener, B. Tao, A. L. Garner: Penetration and Microbial Inactivation by High Voltage Atmospheric Cold Plasma in Semi-Solid Material, Food Bioprocess Technol. X, xxx (2020), citation no. 52, INDEX
(2020)
------------- | | 70.) | H. I. A. Qazi, Y.-Y. Xin, L. Zhou, J. J. Huang: Description of the physicochemical properties of a gas–liquid phase discharge under the Ar—N2 environment, AIP Advances 10, 095207 (2020), citation no. 34, INDEX
(2020)
------------- | | 71.) | Tz. B. Petrova, D. Boris, M. Hinshelwood, M. J. Johnson, E. D. Gillman, S. G. Walton: Helium and oxygen excited states densities in a He-air RF-driven atmospheric pressure plasma jet, Phys. Plasmas 27, 103512 (2020), citation no. 65, INDEX
(2020)
------------- | | 72.) | A. Barkhordari, S.I.Mirzaei, A.Falahat, A.Rodero: Numerical and experimental study of an Ar/CO2 plasma in a point-to-plane reactor at atmospheric pressure, Spectrochimica Acta Part B: Atomic Spectroscopy X, 106048 (2020), citation no. 43, WoS
(2020)
------------- | | 73.) | W. Zhou, Z. Ye, A. Nikiforov, J. Chen, J. Wang, L. Zhao, X. Zhang: The influence of relative humidity on double dielectric barrier discharge plasma for chlorobenzene removal, J. Cleaner Production X, 106048 (2020), citation Machala, WoS
(2020)
------------- | | 74.) | J. Li, J. Zhang, Y. Wang, Y. Jiang, D. Wang: Modeling of Plasma Streamers Guided by Multi-Ring Electrodes in Atmospheric Pressure Plasma Jets, IEEE Trans. Plasma Sci. 49 (1), 234-243 (2020), citation no. 4, WoS
(2020)
------------- | | 75.) | C. Pattyn, N. Maira, A. Remy, N. C. Roy, S. Iseni: Potential of N-2/O-2 atmospheric pressure needle-water DC microplasmas for nitrogen fixation: nitrite-free synthesis of nitrates, Phys. Chem. Chem. Phys. 22 (42) 24801-24812, citation no. 35, WoS
(2020)
------------- | | 76.) | Lingenfelder C., et al 2020 Depth Effect of Cold Atmospheric Pressure Plasma in Keratitis Therapy: A Corneal Stroma Tissue Model [Tiefenwirkung von kaltem Atmosphärendruckplasma in der Keratitistherapie: ein Hornhautstromagewebemodell], Klinische Monatsblatter fur Augenheilkunde, 237(9):1087-1092, DOI: 10.1055/a-1142-6442
(2020)
------------- | | 77.) | Z. Wan, S.K. Pankaj, C. Mosher, K. Keener: Effect of high voltage atmospheric cold plasma on inactivation of Listeria innocua on Queso Fresco cheese, cheese model and tryptic soy agar, LWT - Food Sci. Technol. 102, 268-275 (2019), citation Machala, WoS/SCOPUS
(2019)
------------- | | 78.) | C. Dechthummarong, P. Wongpankamol: Electric discharge plasma in air bubbles for effluent wastewater treatment from chicken slaughterhouse, 2019 ECTI-CON 2018 - 15th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology, 8620057, 274-277 (2019), citation no. 8, SCOPUS
(2019)
------------- | | 79.) | T. Homola, B. Pongrác, M. Zemánek, M. Šimek: Efficiency of Ozone Production in Coplanar Dielectric Barrier Discharge, Plasma Chem. Plasma Proc. 39 (5)1227-1242; (2019), citation no. 37, WoS
(2019)
------------- | | 80.) | M. Nur, N. Bonifaci, A. Denat, V. M. Atrazhev: NH and CN radical emission from corona post discharge region in high density nitrogen plasma, IOP Conf. Series: Materials Sci. Engineer 509, 012084 (2019), citation no. 9, WoS
(2019)
------------- | | 81.) | B. Li, D. Zhang, J. Liu, Y. Tian, Q. Gao, Z. Li: A Review of Femtosecond Laser-Induced Emission Techniques for Combustion and Flow Field Diagnostics, Appl. Sci. 9, 1906 (2019), citation no. 170, WoS
(2019)
------------- | | 82.) | M. Gelker, J. Mrotzek, A. Ichter, C. C.Müller-Goymann, W. Viöl: Influence of pulse characteristics and power density on stratum corneum permeabilization by dielectric barrier discharge, Biochim. Biophys. Acta 1863 (10) 1513-1523 (2019), citation no. 19, WoS
(2019)
------------- | | 83.) | G. Bauer: Cold Atmospheric Plasma and Plasma- Activated Medium: Antitumor Cell Effects with Inherent Synergistic Potential, Plasma Med. 9 (1), 57–88 (2019), citation no. 1, INDEX
(2019)
------------- | | 84.) | D. J. D. H Masruroh Santjojo, A. Abdillah Heraniawati, T. N. Zafirah, S. P. Maulana E Sakti: Optical emission spectroscopy studies during nitrogen plasma of polystyrene surfaces modification, Int. J. Geomate 17 (61) 68-73 (2019) citation no. X, WoS
(2019)
------------- | | 85.) | N. L. D. Bachir, A. Belasri, P. Guillot, B. Caillier: Radiative Emissions in Visible-IR of Krypton Excilamp: Experimental and Theoretical Interpretations, Plasma Chem. Plasma Process. 39 (5)1243-1254 (2019), citation no. 12, WoS
(2019)
------------- | | 86.) | S. K. Kwon, S.-S. Wi, I. S. Eom, S.-J. Park, J.-Y. Sim: Increase of Power Efficiency in Coaxial Transmission Line Resonator by Using a Spacerto Compensate for Plasma Impedance, IEEE Trans. Plasma Sci. 47 (10) 4606-4612 (2019), citation no. 22, WoS
(2019)
------------- | | 87.) | K. Hajizadeh, K. Hajisharifi, H. Mehdian: Morphological risk assessment of cold atmospheric plasma-based therapy: bone marrow mesenchymal stem cells in treatment zone proximity, J. Phys. D. Appl. Phys. 52 (49) 495203 (2019), citation no. 22, WoS
(2019)
------------- | | 88.) | K. W. Engeling: Micro-Plasma in Porous Media and Dielectric Barrier Discharges with Advanced Agricultural Applications, PhD Thesis, University of Michigan (2019), citation no. 62
(2019)
------------- | | 89.) | Cejas E., Mancinelli B.R., Prevosto L.: Glow discharge in a high-velocity air flow: the role of the associative ionization reactions involving excited atoms. Materials, 12 (16) 2524 (2019), WoS, SCOPUS
(2019)
------------- | | 90.) | P. Ghosh: Engineering of materials for hole transport applications in perovskite solar cells, PhD Thesis, Open University, Milton Keynes (2019), citation no. 94
(2019)
------------- | | 91.) | P. Villegas, J. A. Martin-Ramos, A. Martin Pernia, J. Prieto, Miguel, D. B. Fernandez: High voltage resonant converter to generate plasma in open air, 21st European Conference On Power Electronics And Applications, Epe '19 Ecce Europe (2019), citation no. X, WoS
(2019)
------------- | | 92.) | L. F. P. Suarez: Carbon nanotubes grown on stainless steel for supercapacitor applications, PhD Thesis, University of Barcelona, Barcelona (Spain), p. 350 (2019) citation Machala
(2019)
------------- | | 93.) | J. Hong, S. Prawer, A. B. Murphy: Plasma catalysis as an alternative route for ammonia production: status, mechanisms, and prospects for progress, ACS Sustainable Chem. Eng. 6 (1), 15-31 (2018), citation no. 65, WoS/SCOPUS
(2018)
------------- | | 94.) | E. Haye, Y. Busby, M. da Silva Pires, F. Bocchese, N. Job, L. Houssiau, J.-J. Pireaux: Low-Pressure Plasma Synthesis of Ni/C Nanocatalysts from Solid Precursors: Influence of the Plasma Chemistry on the Morphology and Chemical State, ACS Appl. Nano Mater. 1 (1), 265-273 (2018), citation no. 20, WoS
(2018)
------------- | | 95.) | Z. Duan, F. He, X. Si, J. W. Bradley, J. Ouyang: Experimental study of atmospheric-pressure, micro-plasmas for the ambient sampling of conductive materials, J. Phys. D: Appl. Phys. 51 (6), 065201 (2018), citation no. 26, WoS/SCOPUS
(2018)
------------- | | 96.) | Y. He, S. Uehara, H. Takana, H. Nishiyama: Experimental and theoretical study on chemical reactions and species diffusion by a nano-pulse discharged bubble for water treatment, Eur. Phys. J. D 72, art. 11, (2018), citation no. 28, WoS/SCOPUS
(2018)
------------- | | 97.) | Y. -H. Liao, X.-H. Zhao: Plasma-Assisted Stabilization of Lifted Non-Premixed Jet Flames, Energy Fuels 32 (3), 3967-3974 (2018), citation no. 20, WoS
(2018)
------------- | | 98.) | A. Barkhordari, A. Ganjovi, I. Mirzaei, A. Falahat: Study of the physical discharge properties of a Ar/O2 DC plasma jet, Indian J. Phys. 92 (9), 1177-1186 (2018), citation no. 37, WoS/SCOPUS
(2018)
------------- | | 99.) | H. Yamada, T. Shimizu, M. Fujiwara, S. Kato, Y. Fujiwara, H. Itagaki, S. Kiyama, J. Kim, S. Ikehara, N. Shimizu, H. Nakanishi, Y. Ikehara, H. Sakakita: Measurements of emission-propagation phenomena in low-energy atmospheric-pressure helium plasma, Plasma Sources Sci. Technol. 27 (5), 05LT02 (2018), citation no. 5, WoS/SCOPUS
(2018)
------------- | | 100.) | J. Kim and H. Sakakita: Optical Diagnostics of Atmospheric-Pressure Microwave-Excited Plasma Jets, Material Research Society Fall Meeting and Exhibit, Symposium BM06, Boston, USA, Nov 25-30, BM06.08.03 (2018), cit. 3
(2018)
------------- | | 101.) | D. Xu, Y. Xu, Q. Cui, D. Liu, Z. Liu, X. Wang, Y. Yang, M. Feng, R. Liang, H. Chen, K. Ye, M. G. Kong: Cold atmospheric plasma as a potential tool for multiple myeloma treatment, Oncotarget. 9 (26) 18002–18017 (2018), citation no. 34, SCOPUS
(2018)
------------- | | 102.) | A. Zahoranová, L. Hoppanová, J. Šimončicová, Z. Tučeková, V. Medvecká, D. Hudecová, B. Kaliňáková, D. Kováčik, M. Černák: Effect of Cold Atmospheric Pressure Plasma on Maize Seeds: Enhancement of Seedlings Growth and Surface Microorganisms Inactivation, Plasma Chem. Plasma Proc. 38, 969–988 (2018), citation no. 40, INDEX
(2018)
------------- | | 103.) | J. Khun, V. Scholtz, P. Hozak, P. Fitl, J. Julak: Various DC driven point-to-plain discharges as non-thermal plasma sources and their bactericidal effects, Plasma Sources Sci. Technol. 27 (6), 065002 (2018), citation no. 26, WoS
(2018)
------------- | | 104.) | A. Klinbumrung, A. Phuruangrat, T. Thongtem, S. Thongtem: Synthesis, Characterization and Optical Properties of BaMoO4 Synthesized by Microwave Induced Plasma Method, Russian J. Inorganic Chem. 63 (3) 725–731 (2018), citation. 19, WoS
(2018)
------------- | | 105.) | T. Kordová, V. Scholtz, J. Khun, H. Soušková, P. Hozák, M. Čeřovský: Inactivation of Microbial Food Contamination of Plastic Cups Using Nonthermal Plasma and Hydrogen Peroxide, J. Food Qual. 5616437 (2018) citation no. 45, WoS/SCOPUS
(2018)
------------- | | 106.) | T. Kitajima, R. Kage, T. Nakano: Nitrogen plasma-induced HfSiON film growth from Hf nanoscale islands on SiO2/Si, J. Vacuum Sci. Technol. A 36 (5), 051301 (2018), citation no. 63, WoS/SCOPUS
(2018)
------------- | | 107.) | I. M. Piskarev, I. P. Ivanova: Effect of spark electric discharge between solid electrodes on water, Plasma Sourc. Sci. Technol. 28 (8) 085008 (2018), citation no. 8, WoS
(2018)
------------- | | 108.) | A. Chingsungnoen, S. Maneerat, P. Chunpeng, P. Poolcharuansin, R. Nam-Matra: Antimicrobial Treatment of Escherichia coli and Staphylococcus aureus in Herbal Tea Using Low-Temperature Plasma, J. Food. Protect. 81 (9), 1503-1507 (2018), citation no. X, WoS/SCOPUS
(2018)
------------- | | 109.) | A. Barkhordari, A. Ganjovi: Technical Characteristics of a DC Plasma Jet with Ar/N2 and O2/N2 Gaseous Mixtures, Chinese. J. Phys. 57, 465-478 (2018), citation no. 26, WoS/SCOPUS
(2018)
------------- | | 110.) | E.C. Stancu, M.D. Ionita, E.R. Ionita, M. Teodorescu, M.T. Radu, G. Dinescu: Processing of Polyvinyl Chloride Surfaces with Atmospheric Pressure Dielectric Barrier Discharges for Urology Applications, Romanian J. Phys. 63 (9-10), 503 (2018), citation no. 32, WoS
(2018)
------------- | | 111.) | T. Kitajima, R. Kage, T. Nakano: Titanium coverage for plasma-induced uniform HfSiON film from Hf nanoscale islands on SiO2/Si,
Nitrogen plasma-induced HfSiON film growth from Hf nanoscale islands on SiO2/Si, J. Vacuum Sci. Technol. A 36 (6), 061304 (2018), citation no. 41, WoS/SCOPUS
(2018)
------------- | | 112.) | F. Khalili, B. Shokri, M.R. Khani, F. Zandi, A. Aliahmadi: A study of the effect of gliding arc non-thermal plasma on almonds decontamination, AIP Advances 8 (10) 105024 (2018), citation no. 40, SCOPUS
(2018)
------------- | | 113.) | X. Pei , D. Gidon, D. B. Graves: Propeller arc: design and basic characteristics, Plasma Sources Sci. Technol. 27, 125007 (2018), citation no. 41, WoS
(2018)
------------- | | 114.) | G. W. Shin, H.H. Lee, H. T. Kwon, W. J. Kim, Y. C. Seo, G.-C. Kwon: Plasma Density Measurement of Linear Atmospheric Pressure DBD Source Using Impedance Variation Method, J. Semiconductor Display Technology 17 (2), 16-19 (2018), citation no. 3
(2018)
------------- | | 115.) | I. Belov, J. Vanneste, M. Aghaee, S. Paulussen, A. Bogaerts: Synthesis of Micro- and Nanomaterials in CO2 and CO Dielectric Barrier Discharges, Plasma Process. Polym. 14 (3), 1600065 (2016), citation no. 68, WoS
(2017)
------------- | | 116.) | T. Gerling et al.: Absolute Ion Densities In An Atmospheric Pressure Plasma Transient Spark Discharge For Different Oxygen Admixtures, 21st Symposium on Application of Plasma Processes, Štrbské Pleso (Slovakia), January 13-18 (2017), citation no. X
(2017)
------------- | | 117.) | A. S. Bansode, S. E. More, E. A. Siddiqui, S. Satpute, A. Ahmad, S. V, Bhoraskar, V. L. Mathe: Effective degradation of organic water pollutants by atmospheric non-thermal plasma torch and analysis of degradation process, Chemosphere 167, 396-405 (2017), citation Machala, WoS
(2017)
------------- | | 118.) | C. Sarangapani, Y. Dixit, V. Milosavljevic, P. Bourke, C. Sullivan, P. J. Cullen: Optimization of atmospheric air plasma for degradation of organic dyes in wastewater, Water Sci. Technol. 75 (1) 207-219 (2016), citation Machala, WoS/SCOPUS
(2017)
------------- | | 119.) | F. Rezaei, M. D. Dickey, M. Bourham, P. J. Hauser: Surface modification of PET film via a large area atmospheric pressure plasma: An optical analysis of the plasma and surface characterization of the polymer film, Surf. Coating. Technol. 309, 371–381 (2017), citation no. 25, WoS
(2017)
------------- | | 120.) | A. Zeniou, N. Puač, N. Škoro, N. Selaković, P. Dimitrakellis, E. Gogolides, Zl. Petrović: Electrical and optical characterization of an atmospheric pressure, uniform, large-area processing, dielectric barrier discharge, J. Phys. D: Appl. Phys 50 (13), 135204 (2017), citation no. 28, WoS/SCOPUS
(2017)
------------- | | 121.) | H. M. Abourayana, V. Milosavljevic, P. Dobbyn, D. P. Dowling: Evaluation of the Effect of Plasma Treatment Frequency on the Activation of Polymer Particles, Plasma Chem. Plasma Process. 37 (4), 1223-1235 (2017), citation no. 21, WoS
(2017)
------------- | | 122.) | A. Mašláni, V. Sember, M. Hrabovský: Spectroscopic determination of temperatures in plasmas generated by arc torches, Spectrochimica Acta Part B Atomic Spectroscopy 133, 14-20 (2017), citation no. 22, WoS/SCOPUS
(2017)
------------- | | 123.) | S. S. Merola, S. Di Iorio, A. Irimescu, P. Sementa, B. M. Vaglieco: Spectroscopic characterization of energy transfer and thermal conditions of the flame kernel in a spark ignition engine fueled with methane and hydrogen, International J. Hydrogen Energy 42, 13276-13288 (2017), citation no. 53, WoS
(2017)
------------- | | 124.) | S. Liu, Y. Cai, Y. –L. Yu, J.-H. Wang: A miniature liquid electrode discharge-optical emission spectrometric system integrating microelectrodialysis for potassium screening in serum, J. Analytical Atomic Spectrometry 32 (9), 1739-1745 (2017), citation no. 31, WoS/SCOPUS
(2017)
------------- | | 125.) | S. K. Kwon, S. –J. Park, I. H. Won, C. Ahn, J.-Y. Sim: Microwave Plasma Generation With Resonance Frequency Tracking and Power Regulation, IEEE Trans. Plasma Sci., 45 (6) 925-931 (2017), citation no. 19, WoS
(2017)
------------- | | 126.) | P. Dimitrakellis, E. Gogolides, A. Zeniou, K. Awsiuk, J. Rysz, M. Marzec: Transition between stable hydrophilization and fast etching/hydrophilization of poly(methyl) methacrylate polymer using a novel atmospheric pressure dielectric barrier discharge source, J. Vacuum Sci. Technol. A 35 (4) 041303 (2017) ), citation no. 30, WoS/SCOPUS
(2017)
------------- | | 127.) | M. V. Pachuilo, F. Stefani, R. D. Bengtson, D. R. Srivastava, L. L. Raja: Dynamics of Surface Streamer Plasmas at Atmospheric Pressure: Mixtures of Argon and Methane, IEEE Trans. Plasma Sci. 45, 1776-1787 (2017), citation no. 30, WoS
(2017)
------------- | | 128.) | B. Wang, D. Liu, Z. Zhang, Q. Li, Z. Liu, L. Guo, X. Wang, M. G. Kong: A novel large-scale plasma source: Two discharge modes and their correlation to the production of aqueous reactive species, J. Phys. D: App. Phys. 50 (30), 305202 (2017), citation no. 34, WoS/SCOPUS
(2017)
------------- | | 129.) | J. W. Zimmerman, A. D. Palla, D. L. Carroll, G. K. Hristov, P. J. Ansell: Plasma actuator with arc breakdown in a magnetic field for active flow control applications, 48th AIAA Plasmadynamics and Lasers Conference, Denver, Colorado, June 5-9, 23p (2017), citation no. 20, SCOPUS
(2017)
------------- | | 130.) | L. Xu, A. L. Garner, B. Tao, K. M. Keener: Microbial Inactivation and Quality Changes in Orange Juice Treated by High Voltage Atmospheric Cold Plasma, Food Bioprocess. Technol. 10, 1778–1791 (2017), citation Machala, WoS
(2017)
------------- | | 131.) | Y. Du, G. Nayak, G. Oinuma, Y. Ding, Z. Peng. Peter J. Bruggeman: Emission considering self-absorption of OH to simultaneously obtain the OH density and gas temperature: validation, non-equilibrium effects and limitations, Plasma Sources Sci. Technol. 26 (9), art. no. 095007 (2017), citation no. 15, SCOPUS
(2017)
------------- | | 132.) | Z. Ye, S. K. P. Veerapandian, I. Onyshchenko, A. Nikiforov, N. De Geyter, J.-M. Giraudon, J.-F. Lamonier, R. Morent: An in-depth investigation of toluene decomposition with a glass beads packed bed DBD reactor, Ind. Eng. Chem. Res. 56 (37) 10215 - 10226 (2017), citation no. 32, SCOPUS
(2017)
------------- | | 133.) | J. Q. M. Almarashi, A. A. Alhazime, M. A. Ellabban, A.-A. H. Mohamed: Spectroscopic investigation of the plasma jet interaction with water, J. Phys.: Conference Series 869 (1), 012072 (2017), citation no. 4, WoS/SCOPUS
(2017)
------------- | | 134.) | H. Sun, J. Lee, S. K. Im, M. S. Bak: Optical Emission Spectroscopic Studies on Atmospheric Electrodeless Microwave Plasma in Carbon Dioxide-Hydrogen Mixture, IEEE Trans. Plasma Sci. 45 (12), 3154-3159 (2017), citation no. 17, WoS
(2017)
------------- | | 135.) | Y. H. Liao, M. C. Sun, R. Y. Lai: Application of plasma discharges to the ignition of a jet diffusion flame, Proceedings of the ASME Fluids Engineering division Summer Meeting, Vol. 1c (2017), citation no. 17, WoS
(2017)
------------- | | 136.) | P. Seri: Sterilization by means of a surface Dielectric Barrier Discharge: effects of Electro-Hydro-Dynamics and reactive species, Alma Mater Studiorum – Università di Bologna, PhD Thesis (2017), citation no. 5
(2017)
------------- | | 137.) | A. Barkhordari, A. Ganjovi, I. Mirzaei, A. Falahat, M. N. Rostami Ravari: A pulsed plasma jet with the various Ar/N2 mixtures, J. Theor. Appl. Phys. 11 (4) 301-312 (2017), citation no. 56, WoS
(2017)
------------- | | 138.) | G. Han, G. Cho: Electron-excitation Temperature with the Relative Optical spectrum Intensity in an Atmospheric-pressure Ar-plasma Jet, Appl. Aci. Convergence Technol. 26 (6), 201-207 (2017) , citation no. 28, INDEX
(2017)
------------- | | 139.) | M. El Shaer, M. Mobasher, A. Zaki,: Low-cost dielectric barrier discharge plasma hand sanitizer using air and tap water enriched by hydrogen peroxide, Plasma Medicine 7 (3) 273-282 (2017), citation no.12, SCOPUS
(2017)
------------- | | 140.) | C. Sarangapani, Y. Dixit, V. Milosavljevic, P. Bourke, C. Sullivan, C. J. Cullen: Optimization of atmospheric air plasma for degradation of organic dyes in wastewater, Water Sci. Technol. 75 (1) 207–219 (2017), citation Machala
(2017)
------------- | | 141.) | G. Han, G. Cho: Electron-excitation Temperature with the Relative Optical-spectrum Intensity in an Atmospheric-pressure Ar-plasma Jet, Appl. Sci. Convergence Technol. 26 (6), 201-207 (2017), citation no. 31, WoS
(2017)
------------- | | 142.) | Z. Ye: Plasma-catalytic processes with copper manganese oxide catalysts for the abatement of volatile organic compounds, Gent University, PhD Thesis (2017), citation no. 154
(2017)
------------- | | 143.) | N. N. Misra, A. Segat, P. J. Cullen: Atmospheric pressure nonthermal plasma decontamination of foods, Chapter in: Advances in Food Biotechnology (Editors: R.V. Ravishankar), John Wiley & Sons, October (2015) WOS
(2016)
------------- | | 144.) | S. Yao, S. Weng, Y. Tang, C. Zhao, Z. Wu, X. Zhang, S. Yamamoto, S. Kodama: Characteristics of OH production by O2/H2O pulsed dielectric barrier discharge, Vacuum 126, 16-23 (2016), citation no. 22, WoS/SCOPUS
(2016)
------------- | | 145.) | K Subannajui: Super-fast Synthesis of ZnO Nanowires by Microwave Air-Plasma, Chem. Communic. 52 (15), 3195-3198 (2016), citation no. 26, WoS/SCOPUS
(2016)
------------- | | 146.) | R. Tiede, J. Hirschberg, W. Vioel, S. Emmert: A us Pulsed Dielectric Barrier Discharge Source: Physical Characterization and Biological Effects on Human Skin Fibroblasts, Plasma Process. Polym. 13 (8), 775-787 (2016), citation no. 60, WoS
(2016)
------------- | | 147.) | N. J. C. Tyler, K.-A. Stokkan, S. R. Hogg, C. Nellemann, A. I. Vistnes: Cryptic impact: Visual detection of corona light and avoidance of power lines by reindeer, Wildlife Society Bulletin 40 (1), 50–58 (2016), citation Machala
(2016)
------------- | | 148.) | X. Lu, G.V. Naidis, M. Laroussi, S. Reuter, D. B. Graves, K. Ostrikov: Reactive species in non-equilibrium atmospheric-pressure plasmas: Generation, transport, and biological effects, Physics Reports 630, 1-84 (2016), citation no. 66, WoS
(2016)
------------- | | 149.) | J. C. Whitehead, M. Prantsidou: Investigation of hydrocarbon oil transformation by gliding arc discharge: comparison of batch and recirculated configurations, J. Phys. D: Appl. Phys. 49 (2016) 154001, citation no. 25, WoS/SCOPUS
(2016)
------------- | | 150.) | X. Li, P. Zhang, W. Bao, P. Jia, J. Chu: Two modes of a plasma jet excited by a direct current voltage, Plasma Source. Sci. Technol 25, 025022 (2016), citation no. 25, WoS/SCOPUS
(2016)
------------- | | 151.) | N. J. C. Tyler, K.-A. Stokkan, C. R. Hogg, C. Nellemann, A .I. Vistnes: Cryptic impact: Visual detection of corona light and avoidance of power lines by reindeer, Wildlife Society Bulletin 40 (1), 50-58 (2016), citation Machala, WoS/SCOPUS
(2016)
------------- | | 152.) | V. P. Demkin, S. V. Melnichuk, O. V. Demkin, H. Kingma, R. Van de Berg: Spectroscopic studies of non-thermal plasma jet at atmospheric pressure formed in low-current nonsteady-state plasmatron for biomedical applications, Phys. Plasmas 23, 043509 (2016), citation nox. 27, WoS/SCOPUS
(2016)
------------- | | 153.) | K. L. Lowery, T. McSweeney, S. P. Adhikari, A. Lachgar, G. L. Donati: Signal correction using molecular species to improve biodiesel analysis by microwave-induced plasma optical emission spectrometry, Microchemical Journal 129, 58–62 (2016), citation no. 25, WoS
(2016)
------------- | | 154.) | B. L. Yu, A. H. Blaesi, N. Casey, G. Raykhtsaum, L. Zazzeron, R. Jones, A. Morrese, D. Dobrynin, R. Malhotra, D. B. Bloch, L. E. Goldstein, W. M. Zapol: Detection and removal of impurities in nitric oxide generated from air by pulsed electrical discharge, Nitric Oxide – Biol. Chem. 60, 16-23 (2016), citation no. 18, WoS/SCOPUS
(2016)
------------- | | 155.) | C. E. Anderson, N. R. Cha, A. D. Lindsay, D. S. Clark, D. B. Graves: The Role of Interfacial Reactions in Determining Plasma-Liquid Chemistry, Plasma Chem. Plasma Process. 36 (6),1393-1415 (2016), citation no. 57, WoS
(2016)
------------- | | 156.) | Y. J. Du, Z. M. Peng, Y. J. Ding, N. Sadeghi, P. J. Bruggeman: Is it possible to deduce the ground state OH density from relative optical emission intensities of the OH(A2+-X2i)) transition in atmospheric pressure non-equilibrium plasmas?-An analysis of self-absorption, Plasma Sources Sci. Technol. 25 (4) 04LT02 (2016), citation no. 16, WoS
(2016)
------------- | | 157.) | K. J. Jankowski, E. Reszke, J. A. C. Broekaert: Microwave Plasma Systems in Optical and Mass Spectroscopy In Encyclopedia of Analytical Chemistry, Wiley (2016), citation no. 260
(2016)
------------- | | 158.) | J. A. Jofre-Reche, J. Pulpytel, F. Arefi-Khonsari, J. M. Martin-Martinez: Increased adhesion of polydimethylsiloxane (PDMS) to acrylic adhesive tape for medical use by surface treatment with an atmospheric pressure rotating plasma jet, J. Phys. D: Appl. Phys. 49 (33) 334001 (2016), citation no. 32, WoS/SCOPUS
(2016)
------------- | | 159.) | J. H. Park, H. Kim, M. Shiratani, A. E. Cho, E. H. Choi, P. Attri: Variation in structure of proteins by adjusting reactive oxygen and nitrogen species generated from dielectric barrier discharge jet, Scientific Reports 6, 35883 (2016), citation no. 28, WoS
(2016)
------------- | | 160.) | H. Yamada, H. Sakakita, S. Kato, J. Kim, S. Kiyama, M. Fujiwara, H. Itagaki, T. Okazaki, S. Ikehara, H. Nakanishi, N. Shimizu, Y. Ikehara: Spectroscopy of reactive species produced by low-energy atmospheric-pressure plasma on conductive target material surface, J. Phys. D. Appl. Phys. 49 (39), 394001 (2016), citation no. 1, WoS
(2016)
------------- | | 161.) | J. Vorobioff, N. Boggio, S. Moncayo , J. O. Caceres, C.A. Rinaldi: Corona Discharge Induced Plasma Spectroscopy (CDIPS) for quantitative analysis of gas mixtures, J. Anal. Atom. Spectrom. 31, 2053-2059 (2016), citation no. 8, WoS
(2016)
------------- | | 162.) | L. Chandana, Ch. Subrahmanyam: Degradation and mineralization of aqueous phenol by an atmospheric pressure catalytic plasma reactor, J. Environmental Chem. Engineer. 6 (3), 3780-3786 (2016), citation no. 40, WoS
(2016)
------------- | | 163.) | D. Ziuzina: Atmospheric Cold Plasma as a Tool for Microbiological Control, PhD Thesis, Dublin Institute of Technology, Dublin (Ireland), citation Machala (2016)
(2016)
------------- | | 164.) | D. G. Lanz, P. E. Hintze: Characterization of Low Pressure Cold Plasma in the Cleaning of Contaminated Surfaces, NASA KSC Intern Final Report, Kennedy Space Center (2016), citation no. 5
(2016)
------------- | | 165.) | Z. Kovaľová: Bio-decontamination of biofilms on surfaces by cold plasma, PhD Thesis, Université Paris-Saclay, Paris (France), citation no. 230 (2016)
(2016)
------------- | | 166.) | E. L. Guinter: Polimerização de anidrido maleico ativado por plasma gerado em gaiola catódica, University do Estando de Santa Catarina, Joinville (Brazil), PhD Thesis, 90 p. (2017), citation Machala
(2016)
------------- | | 167.) | B. Hrycak, D. Czylkowski, R. Miotk, M. Dors, M. Jasinski, J. Mizeraczyk: Hydrogen production from ethanol in nitrogen microwave plasma at atmospheric pressure, Open Chem. 13, 317–324 (2015), citation no. 33, WoS/SCOPUS
(2015)
------------- | | 168.) | L. Prevosto, H. Kelly, B. Mancinelli, J. C. Chamorro, E. Cejas: On the physical processes ruling an atmospheric pressure air glow discharge operating in an intermediate current regime, Phys. Plasmas 22, 023504 (2015), citation no. 10, WoS/SCOPUS
(2015)
------------- | | 169.) | P. Attri, N. Kumar, J. H. Park, D. K. Yadav, S. Choi, H.S. Uhm, I. T. Kim, E. H. Choi, W. Lee: Influence of reactive species on the modification of biomolecules generated from the soft plasma, Scientific Reports 5, 8221 (2015), citation no. 43, WoS
(2015)
------------- | | 170.) | W. Li , Z. Yin , X. Cheng , W. Hang, J. Li, B. Huang: Pulsed Microdischarge with Inductively Coupled Plasma Mass Spectrometry for Elemental Analysis on Solid Metal Samples, Anal. Chem. 87 (9) 4871-4878 (2015), citation no. 26, WoS/SCOPUS
(2015)
------------- | | 171.) | S. Imai, H. Kumagai, M. Iwata, M. Onodera, M. Suzuki: In-Water Plasma Generation on a Liquid Wall Using a Compact Device and Dedicated Power Supply, IEEE Trans. Plasma Sci. 43 (7, 2166-2173 (2015), citation no. 19, WoS
(2015)
------------- | | 172.) | R. Zhou, X. Zhang, Z. Bi, Z. Zong, J. Niu, Y. Song, D. Liu, S. Yang: Inactivation of Escherichia coli cells in aqueous solution by atmospheric-pressure N2, He, air, and O2 microplasmas, Appl. Environm. Microbiol. 81 (15) 5257-5265 (2015), citation no. 37, WoS/SCOPUS
(2015)
------------- | | 173.) | M. Elsaadany, G Subramanian, H Ayan, E Yildirim-Ayan: Exogenous nitric oxide (NO) generated by NO-plasma treatment modulates osteoprogenitor cells early differentiation, J. Phys. D: Appl. Phys. 48, 345401 (2015), citation no. 68, WoS/SCOPUS
(2015)
------------- | | 174.) | J. Nelson, G. Gilleland, L. Poirier, D. Leong, P. Hajdu: Elemental Analysis of Crude Oils Using Microwave Plasma Atomic Emission Spectroscopy, Energy & Fuels 29, 5587-5594 (2015), citation no. 40, WoS/SCOPUS
(2015)
------------- | | 175.) | S. Mashayekh, H. Rajaee, M. Akhlaghi, B. Shokri, Z.M. Hassan: Atmospheric-pressure plasma jet characterization and applications on melanoma cancer treatment (B/16-F10), Phys. Plasmas 22, 093508 (2015), citation no. 26, WoS/SCOPUS
(2015)
------------- | | 176.) | M. Inokuchi, M. Akiyama, T. Shimizu, T. Sakugawa, H. Akiyama: Characteristics of Microplasma Jet using Air Flow and Pulsed Power, IEEJ Trans. Fundament. Material. 135 (9), 522-528 (2015), citation no. 8, SCOPUS
(2015)
------------- | | 177.) | S. B. Bayram, P. T. Arndt, M. V. Freamat: Rotational spectra of N2+: An advanced undergraduate laboratory in atomic and molecular spectroscopy, Amer. J. Phys. 83 (10), 867-872 (2015), citation Machala, WoS/SCOPUS
(2015)
------------- | | 178.) | S. A. Ouf, A. A. El-Adly, A. A. Mohamed: Inhibitory effect of silver nanoparticles mediated by atmospheric pressure air cold plasma jet against dermatophyte fungi, J. Medical Microbiol. 64 (10), 1151-1161 (2015), citation no. 29, WoS/SCOPUS
(2015)
------------- | | 179.) | N. N. Misra, P. J. Cullen, F. J. Barba, C. Lik Hii, H. Jaeger, J. Schmidt, A. Kovács, H. Yoshida: Processing Technologies and Industrial Techniques in Food Waste Recovery (edited by C. M. Galanakis), Elsevier, Amstredam, Boston, … 197-225 (2015), citation Machala, WoS/SCOPUS
(2015)
------------- | | 180.) | T. Belmonte, C. Noël, T. Gries, J. Martin, G. Henrion: Theoretical background of optical emission spectroscopy for analysis of atmospheric pressure plasmas, Plasma Sources Sci. Technol. 24 (6), 064003 (2015), citation no. 71, WoS/SCOPUS
(2015)
------------- | | 181.) | N. A. Saad, S. K. Zaaba, M. T. Mustaffa, A. Zakaria, R. M. Nor:, A. B. Shahriman, T. Akitsu: Optical emission spectroscopy analysis of atmospheric plasma jet plume on bacteria inactivation, Jurnal Teknologi 7 (6), 77-81 (2015), citation no. 2, SCOPUS
(2015)
------------- | | 182.) | A. Bierstedt, U. Panne, K. Rurack, J. Riedel: Characterization of two modes in a dielectric barrier discharge probe by optical emission spectroscopy and time-of-flight mass spectrometry, J. Analytic. Atomic Spectrom. 30 (12), 2496-2506 (2015), citation no. 37, WoS
(2015)
------------- | | 183.) | J. M. Palomares, A. Kohut, G. Galbács, R. Engeln, Zs. Geretovszky: A time-resolved imaging and electrical study on a high current atmospheric pressure spark discharge, J. Appl. Phys. 118, 233305 (2015), citation no. 14, WoS
(2015)
------------- | | 184.) | S. Dahle, J. Hirschberg, W Viöl, W. Maus-Friedrichs: Gas purification by the plasma-oxidation of a rotating sacrificial electrode, Plasma Sources Sci. Technol. 24, 035021 (2015), citation Machala, SCOPUS
(2015)
------------- | | 185.) | P. Jamroz, K. Gręda, P. Pohl, W. Zyrnicki: Atmospheric Pressure Glow Discharges Generated in Contact with Flowing Liquid Cathode: Production of Active Species and Application in Wastewater Purification Processes, Plasma Chem. Plasma Process. 34, 25–37 (2014), citation no. 19, WoS
(2014)
------------- | | 186.) | F. Rezaei, M. Abbasi-Firouzjah, B. Shokri: Investigation of antibacterial and wettability behaviours of plasma-modified PMMA films for application in ophthalmology, J. Phys. D: Appl. Phys. 47, 085401 (2014), citation no. 44, WoS/SCOPUS
(2014)
------------- | | 187.) | A. Mašláni, V. Sember: Emission spectroscopy of OH radical in water-argon arc plasma jet, J. Spectroscopy 2014, 952138 (2014), citation no. 2, WoS
(2014)
------------- | | 188.) | L. Su, R. Kumar, B. Ogungbesan, M. Sassi: Experimental investigation of gas heating and dissociation in a microwave plasma torch at atmospheric pressure, Energy Conversion and Management 78, 695-703 (2014), citation no. 48, WoS/SCOPUS
(2014)
------------- | | 189.) | P. J. Bruggeman, N. Sadeghi, D. C. Schram, V. Linss: Gas temperature determination from rotational lines in non-equilibrium plasmas: A review, Plasma Sources Sci. Technol. 23 (2), art. no. 023001 (2014), citation no. 227, WoS/SCOPUS
(2014)
------------- | | 190.) | A. Sarani, C. Nicula, X. F. Gonzales, M. Thiyagarajan: Characterization of Kilohertz-Ignited Nonthermal He and He/O₂ Plasma Pencil for Biomedical Applications, IEEE Trans Plasma Sci. 42 (10), 3148-3160 (2014), citation no. 23, WoS/SCOPUS
(2014)
------------- | | 191.) | J.-H. Lee, Y.-H. Kim, E.-H. Chioi, K.-M. Kim, K.-N. Kim: Development of hydrophilic dental wax without surfactant using a non-thermal air atmospheric pressure plasma jet, J. Phys. D: Appl. Phys. 47 (23), 235402 (2014), citation no. 32, WoS/SCOPUS
(2014)
------------- | | 192.) | N. N. Misra, L. Han, B .K. Tiwari, P. Bourke, P. J. Cullen: Nonthermal plasma technology for decontamination of foods, In book: Novel Food Preservation and Microbial Assessment Techniques, Publisher: CRC Press, Editors: I.S. Boziaris, 155-183 (2014)
(2014)
------------- | | 193.) | R. Miotk, M. Jasinski, J. Mizeraczyk: Optical emission spectroscopy of plasma generated by a waveguide-supplied microwave plasma source operated at 915 MHz, Physica Scripta T161, 014055 (2014), citation no. 12, WoS/SCOPUS
(2014)
------------- | | 194.) | M. Bashir, J. M. Rees, S. Bashir, W. B. Zimmerman: Characterization of atmospheric pressure microplasma produced from argon and a mixture of argon–ethylenediam, Phys. Letters A, 378 (32-33), 2395-2405 (2014), citation no. 15, WoS/SCOPUS
(2014)
------------- | | 195.) | N. N. Misra, T. Moiseev, S. Patil, S. K. Pankaj, P. Bourke, J. P. Mosnier, K. M. Keener, P. J. Cullen: Cold Plasma in Modified Atmospheres for Post-harvest Treatment of Strawberries, Food Bioprocess Technol. 7 (10), 3045-3054 (2014), citation Machala, WoS/SCOPUS
(2014)
------------- | | 196.) | M. Mavadat: Characterization of biomedical used plasmas by IR and UV-VIS emission spectroscopy, PhD Thesis, Universite Laval, Québec, Canada (2014), citation no. 27/60
(2014)
------------- | | 197.) | R. Barni, I. Biganzoli, D. Tassetti, C. Riccardi: Characterization of a Plasma Jet Produced by Spark Discharges in Argon Air Mixtures at Atmospheric Pressure, Plasma Chem. Plasma Process. 34(6), 1415 - 1431 (2014), citation no. 24, WoS
(2014)
------------- | | 198.) | Y. Du, Y. Ding, Y. Liu, L. Lan, Z. Peng: Calibration-free self-absorption model for measuring nitric oxide concentration in a pulsed corona discharge, Appl. Optics 53 (22) 4922-4929 (2014), citation no. 4, WoS/SCOPUS
(2014)
------------- | | 199.) | B. Hrycak, M. Jasinski, J. Mizeraczyk: Spectroscopic Study of CO2 Plasma in Microwave Source Designed for Hydrogen Production via Hydrocarbons Decomposition, Acta Phys. Polon. A 125 (6) 1326-1328 (2014), citation no. 9, WoS/SCOPUS
(2014)
------------- | | 200.) | L. S. Ruvalcaba: Desarrollo de un sistema generacion de plasma basade en una descarga de barrera dieléctrica coplanar, PhD thesis, Instituto Politéchnico Nacional, Mexico (2014), citation no.37
(2014)
------------- | | 201.) | T. Gerling: Beiträge zur optischen und elektrischen Charakterisierung des dynamischen Verhaltens von Plasmaspezies in Atmosphärendruck-Plasmen, PhD Thesis, Ernst-Moritz-Arndt-Universität, Greifswald, Germany (2014), citation no.188
(2014)
------------- | | 202.) | S. Brown, A. Ford, C. C. Akpovo, J. Martinez, L. Johnson: Matrix effects in laser ablation molecular isotopic spectrometry, Spectrochimica Acta - Part B Atomic Spectroscopy 101, 204-212 (2014), citation no. 62, WoS
(2014)
------------- | | 203.) | A. Tamošiūnas, P. Valatkevičius, V. Grigaitienė, V. Valinčius: Operational parameters of thermal water vapor plasma torch and diagnostics of generated, Plasma jet, Romanian Reports Phys. 66 (4), 1125–1136 (2014), citation no. 35, WoS/SCOPUS
(2014)
------------- | | 204.) | T. Moiseev, N.N. Misra, S. Patil, P.J. Cullen, P. Bourke, K.M. Keener, J.P. Mosnier: Post-discharge gas composition of a large-gap DBD in humid air by UV–Vis absorption spectroscopy, Plasma Sources Sci. Technol. 23, 065033 (2014), citation no. 13, WoS/SCOPUS
(2014)
------------- | | 205.) | M. G. Kong, D. Liu: Researches on the Interact ion Between Gas Plasmas and Aqueous Solutions: Significance, Challenges and New Progresses, High Voltage Engineering 40 (10) 2956-2965 (2014), citation no. 50
(2014)
------------- | | 206.) | A. Singh, J. Singh, A. P. Singh, R. Singh: Biomedical waste management and their possible heal the risks with controlling measures in Bareilly city, UP, India, Oct. Jour. Env. Res. 2(4), 296-302, citation Machala (2014).
(2014)
------------- | | 207.) | S. J. Anaghizi, P. Talebizadeh, S. Mirpour, H. Rahimzadeh, H. Ghomi: The Optical Emission Spectroscopy of Non-thermal Plasma Reactor for
NOx Toxic Gas Reduction, 20th Iranian conference on optics and photonics (ICOP2014), Tehran, Iran (2014)
(2014)
------------- | | 208.) | I. P. Smyaglikov, N. M. Chekan, I. P. Akula, I. L. Pobal, J. Rajczyk: Spectroscopic diagnostics of a pulsed arc plasma in the presence of acetylene, Vacuum 90 (1), 165-169 (2013), citation no. 16, WoS/SCOPUS
(2013)
------------- | | 209.) | Y. Jin, Z. Li, L. Hu, X. Shi, W. Guan, Y. Du: Synthesis of chitosan-stabilized gold nanoparticles by atmospheric plasma, Carbohydrate Polymers 91 (1), 152-156 (2013), citation no. 12, WoS/SCOPUS
(2013)
------------- | | 210.) | L. Lee, Y. Kim: Low-voltage atmospheric-plasma generation by utilizing afterglow initiation carrier, IEEE Trans. Plasma Sci. 41 (1), 155-158 (2013), citation no. 1, WoS/SCOPUS
(2013)
------------- | | 211.) | L. F. Spencer, A. D. Gallimore: CO2 dissociation in an atmospheric pressure plasma/catalyst system: A study of efficiency, Plasma Sourc. Sci. Technol. 22 (1) 015019 (2013), citation no. 23, WoS/SCOPUS
(2013)
------------- | | 212.) | D. M. El-Zeer, A. Samir, F. F. Elakshar, A. A. Garamoon: Decaying of nitrogen second positive system by addition of H2 gas in air DB discharge, J. Modern Phys. 4 (2), 160-167 (2013), citation no. 11, INDEX
(2013)
------------- | | 213.) | D. Ziuzina, S. Patil, P. J. Cullen, K. M. Keener, P. Bourke: Atmospheric cold plasma inactivation of Escherichia coli in liquid media inside a sealed package, J. Appl. Microbiol. 114 (3), 778-787 (2013), citation no. 29, WoS/SCOPUS
(2013)
------------- | | 214.) | M. Thiyagarajan, A. Sarani, X. Gonzales, X.: Atmospheric pressure resistive barrier air plasma jet induced bacterial inactivation in aqueous environment, J. Appl. Phys. 113 (9), 093302 (2013), citation no. 37, WoS/SCOPUS
(2013)
------------- | | 215.) | T. Gerling, T. Hoder, R. Brandenburg, R. Bussiahn, K.-D. Weltmann: Influence of the capillary on the ignition of the transient spark discharge, J. Phys. D: Appl. Phys. 46, 145205 (2013), citation no. 11, WoS/SCOPUS
(2013)
------------- | | 216.) | K. Y. Baik, Y. H. Kim, Y. H. Ryu, H. S. Kwon, G. Park, H. S. Uhm, E. H. Choi: Feeding-gas effects of plasma jets on escherichia coli in physiological solutions, Plasma Process. Polym. 10 (3) 235-242 (2013), citation no. 10, WoS/SCOPUS
(2013)
------------- | | 217.) | I. Biganzoli, R. Barni, C. Riccardi, A. Gurioli, R. Pertile: Optical and electrical characterization of a surface dielectric barrier discharge plasma actuator, Plasma Sources Sci. Technol. 22 (2), 025009 (2013), citation no. 37, WoS/SCOPUS
(2013)
------------- | | 218.) | M. Blajan, A. Umeda, K. Shimizu: Surface treatment of glass by microplasma, IEEE Trans. Ind. Appl. 49 (2), 714–720 (2013), citation no. 10, SCOPUS
(2013)
------------- | | 219.) | J. Hirschberg, T. Omairi, N. Mertens, A. Helmke, S. Emmert: Influence of excitation pulse duration of dielectric barrier discharges on biomedical applications, J. Phys. D: Appl. Phys. 46, 165201 (2013), citation no. 15, WoS/SCOPUS
(2013)
------------- | | 220.) | M. Teodorescu et al.: Investigations of a long and stable filamentary plasma jet generated at atmospheric pressure, 10th Frontiers in Low Temperature Plasma Diagnostics, Rolduc, Kerkrade (The Netherlands), April 28-May 2, P1-21 (2013)
(2013)
------------- | | 221.) | G. L. Donati, R. S. Amais, D. Schiavo, J. A. Nobrega: Determination of Cr, Ni, Pb and V in gasoline and ethanol fuel by microwave plasma optical emission spectrometry, J. Anal. At. Spectrom. 28,755 (2013), citation no. 22, WoS
(2013)
------------- | | 222.) | M. Blajan, K. Shimizu: Spatial and temporal distribution of microplasma in small discharge gaps, IEEE Trans. Ind. Appl. 49 (4), 1787-1792 (2013), citation no. 8, SCOPUS
(2013)
------------- | | 223.) | M. Thiyagarajan, A. Sarani, C. Nicula: Optical emission spectroscopic diagnostics of a non-thermal atmospheric pressure helium-oxygen plasma jet for biomedical applications, J. Appl. Phys. 113 (23), 233302, (2013), citation no. 6, WoS/SCOPUS
(2013)
------------- | | 224.) | M. Mols, H. Mastwijk, M. Nierop Groot, T. Abee: Physiological and transcriptional response of Bacillus cereus treated with low-temperature nitrogen gas plasma, J. Appl. Microbiology 115 (3), 689-702 (2013), citation no. 19, WoS/SCOPUS
(2013)
------------- | | 225.) | Y. Meir, E. Jerby, Z. Barkay, D. Ashkenazi, J.B. Mitchell, T. Narayanan, N. Eliaz, J. L. LeGarrec, M. Sztucki, O. Meshcheryakov: Observations of ball-lightning-like plasmoids ejected from silicon by localized microwaves, Materials 6 (9) 4011-4030 (2013), citation no. 29, WoS/SCOPUS
(2013)
------------- | | 226.) | J. O. Jo, S. D. Kim, B. J. Lim, Y. J. Hyun, Y. S. Mok: Degradation of taste-and-odor compounds and toxins in water supply source using plasma, Appl. Chem. Enginner. 24 (5) 518-524 (2013), citation no. 13, SCOPUS
(2013)
------------- | | 227.) | V. Grigaitiene, A. Tamošiunas, V. Valinčius: Water vapour plasma generation for environmental purposes, Fresenius Environ. Bulletin 22 (7A) 2069-2073 (2013), citation no. 6, WoS/SCOPUS
(2013)
------------- | | 228.) | A. Helmke, D. Wandke, M. Mahmoodzada, K.-D. Weltmann, W. Viöl: Impact of electrode design, supply voltage and interelectrode distance on safety aspects and characteristics of a medical DBD plasma source, Contrib. Plasma Phys. 53 (9), 623-638 (2013), citation no. 36, WoS/SCOPUS
(2013)
------------- | | 229.) | S. Pekárek: Effect of magnetic field, airflow or combination of airflow with magnetic field on hollow needle-to-cylinder discharge regimes, J. Phys. D: Appl. Phys. 46, 505207 (2013), citation no. 24, WoS/SCOPUS
(2013)
------------- | | 230.) | A. Ponomarev, A. I. Gusev, M. S. Pedos, A. G. Sergeev, A. V. Ustyuzhanin, A.S.Podymova: High-frequency generator based on pulsed excitation of the oscillating circuit for biological decontamination, 19th IEEE Conference: Digest of Technical Papers - IEEE Pulsed Power Conference, art. no. 6627495 (2013), SCOPUS
(2013)
------------- | | 231.) | J. Julák, V. Scholtz, S. Kotúčová, O. Janoušková: The persistent microbicidal effect in water exposed to the corona discharge, Physica Medica 28 (3), 230-239 (2012), citation no. 16, WoS/SCOPUS
(2012)
------------- | | 232.) | J. L. Hueso, V. J. Rico, A. Yanguas-Gil, J. Cotrino, A. R. González-Elipe: Optical emission spectroscopic evaluation of different microwave plasma discharges and its potential application for sterilization processes, 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, 121-132 (2012), citation no. 7, SCOPUS
(2012)
------------- | | 233.) | M. V. Erofeev, M. I. Lomaev, D. A. Sorokin, V. F. Tarasenko: Emission of cyan upon excitation of nitrogen, air, and N2-CH4 mixture by discharge pulses in an inhomogeneous electric field, Optics and Spectroscopy (English translation of Optika i Spektroskopiya) 112 (1), 39-46 (2012), citation no. 4, WoS/SCOPUS
(2012)
------------- | | 234.) | J. Mizeraczyk, B. Hrycak, M. Jasiński, M. Dors: Spectroscopic investigations of plasma generated by waveguide-supplied nozzleless microwave source, 8th International Symposium on Non-thermal Plasma Technology for Pollution Control ISNTP-8, Camaret (France), June 25-28, USB (2012), citation no. 16
(2012)
------------- | | 235.) | D. M. El-Zeer, N. Dawood, F. Elakshar, A. A. Garamoon: The influence of the addition of argon gas to air DB discharge, Eur. Phys. J. Appl. Phys. 58 (3), 30801 (2012), citation no. 7, WoS/SCOPUS
(2012)
------------- | | 236.) | Y. X. Cai, C. H. Sun, J. Wang: Emission spectrum from dielectric barrier discharge plasma under atmosphere pressure, Jiangsu Daxue Xuebao (Ziran Kexue Ban)/J. Jiangsu University (Natural Science Edition) 33 (5), 518-521+548 (2012), citation no. 7, SCOPUS
(2012)
------------- | | 237.) | K. Fricke, I. Koban, H. Tresp, L. Jablonowski, K. Schröder, A. Kramer, K.-D. Weltmann, T. von Woedtke, T. Kocher: Atmospheric pressure plasma: a high-performance tool for the efficient removal of biofilms, PLOS ONE 7 (8), e42539 (2012), citation no.27, WoS/SCOPUS
(2012)
------------- | | 238.) | M. Blajan, K. Shimizu: Spatial distribution of light emission in microplasma under 100 µm gaps, Jpn. J. Appl. Phys. 51 (8), 08HC03 (2012), citation no. 8, WoS/SCOPUS
(2012)
------------- | | 239.) | J. Foltinová, Š. Polák: Histológia pre poslucháčov biomedicínskej fyziky. Univerzita Komenského, Bratislava (2012), s. 248
(2012)
------------- | | 240.) | A. Nekahi, M. A. Farzaneh: A study of the emission spectra from discharges on an ice surface, Annual Report - Conference on Electrical Insulation and Dielectric Phenomena, CEIDP, art. no. 6378903, 807-810 (2012), citation no. 11, SCOPUS
(2012)
------------- | | 241.) | J. Mizeraczyk, B. Hrycak, M. Jasiński, M. Dors: Spectroscopic investigations of plasma generated by waveguide-supplied nozzleless microwave source, Int. J. Plasma Environ. Sci. Technol. 6 (3), 239-245 (2012), citation no. 16, SCOPUS
(2012)
------------- | | 242.) | B. Hrycak, M. Jasiński, J. Mizeraczyk: Spectroscopic characterization of nitrogen plasma generated by waveguide-supplied coaxial-line-based nozzleless microwave source, J. Phys: Conference Series 406 (1), 012037 (2012), citation no. 20, SCOPUS
(2012)
------------- | | 243.) | Y. Cai, C. Sun, J. Wang, W. Han: Emission spectrum from dielectric barrier discharge plasma under atmosphere pressure, Journal of Jiangsu University (Natural Science Edition) 33 (5), 0461 (2012) citation no. 7
(2012)
------------- | | 244.) | M. Blajan, H. Fukunaga, K. Shimizu: Spatial and temporal analysis of microplasma light emission, Materials Research Society Symposium Proceedings 1469, 80-85 (2012), citation no. 8, SCOPUS
(2012)
------------- | | 245.) | M. Inokuchi, T. Sakugawa, H. Akiyama: Spectroscopic observation of micro plasma jets generated by pulsed power, 2012 IEEE International Power Modulator and High Voltage Conference, IPMHVC 2012, art. no. 6518791, 504-507 (2012), citation no. 4, SCOPUS
(2012)
------------- | | 246.) | S. Nijdam, E. van Veldhuizen, P. Bruggeman, U. Ebert: An Introduction to Nonequilibrium Plasmas at Atmospheric Pressure in in Plasma Chemistry and Catalysis in Gases and Liquids (edited by V. I. Parvulescu, M. Magureanu, P. Lukeš), Wiley, Weinheim, Germany, 1-44 (2012), citation no. X, SCOPUS
(2012)
------------- | | 247.) | A. Mraihi: Realisation, caracterisation et bilan energetique de reacteurs corona mono et multi-pointes dans l’air a la pression atmospherique pour application a la decontamination, PhD Thesis, University Toulouse, Toulouse, France (2013), citation Ma-2
(2012)
------------- | | 248.) | E. M. M. Ewais, S. Barg, G. Grathwohl, A. A. Garamoon, N. N. Morgan: Processing of open porous zirconia via alkane-phase emulsified suspensions for plasma applications, Int. J. Appl. Ceram. Technol. 8 (1), 85-93 (2011), citation no. 50, WoS/SCOPUS
(2011)
------------- | | 249.) | T. Reghu, M. Kumara, A. K. Biswasa, L. M. Kukrejaa: A sensitive arc detection technique for reliable operation of high repetition rate TEA CO2 laser, Optic Laser Technol. 43 (4) 904-910 (2011), citation no. 24, WoS/SCOPUS
(2011)
------------- | | 250.) | G. Horváth, F. Krčma, L. Polachová, K. Klohnová, N. J. Mason, M. Zahoran, Š. Matejčík: Organic chemistry of NH3 and HCN induced by an atmospheric abnormal glow discharge in N2-CH4 mixtures, Eur. Phys. J. Appl. Phys. 53, 11001 (2011), citation no. 33, WoS/SCOPUS
(2011)
------------- | | 251.) | A. A. Garamoon, D. M. El-zeer, A. Abd El- Ghany, D. Ghoneem, F. El-Hossary: Influences of the barrier types and arrangements on dielectric barrier discharge characteristics, Eur. Phys. J. Appl. Phys. 53 (2) 21001-21009 (2011), citation no. 4, WoS/SCOPUS
(2011)
------------- | | 252.) | A. V. Nastuta, I. Topala, C. Grigoras, V. Pohoata, G. Popa: Stimulation of wound healing by helium atmospheric pressure plasma treatment, J. Phys. D: Appl. Phys. 44, 105204 (2011), citation no. 23, WoS/SCOPUS
(2011)
------------- | | 253.) | J. Julák, O. Janoušková, V. Scholtz, K. Holada: Inactivation of prions using electrical DC discharges at atmospheric pressure and ambient temperature, Plasma Process. Polym. 8 (4), 316-322 (2011), citation no. 29, WoS/SCOPUS
(2011)
------------- | | 254.) | N. Srivastava, C. Wang: Determination of OH radicals in an atmospheric pressure helium microwave plasma jet, IEEE Trans. Plasma Sci. 39 (3), 918-924 (2011), citation no. 34, WoS/SCOPUS
(2011)
------------- | | 255.) | M. Mavadat, A. Ricard, C. Sarra-Bournet, G. Laroche: Determination of ro-vibrational excitations of N2(B,v’) and N2(C,v’) states in N2 microwave discharges using visible and IR spectroscopy, J. Phys. D: Appl. Phys. 44, 155207 (2011), citation no. 27, WoS/SCOPUS
(2011)
------------- | | 256.) | H. Park, Y. Kim: Active-current-controlled atmospheric-plasma generation using a plasma-on-a-chip, IEEE Trans. Plasma Sci. 39, 1110-1113 (2011), citation no. 1, WoS/SCOPUS
(2011)
------------- | | 257.) | D. Pai: Nanomaterials synthesis at atmospheric pressure using nanosecond discharges, J. Phys. D: Appl. Phys. 44, 174024 (2011), citation Machala, WoS/SCOPUS
(2011)
------------- | | 258.) | H. H. Kim, A. Ogata: Gas-to-particle conversion in surface discharge nonthermal plasmas and its implications for atmospheric chemistry, Sensors 11 (3) 2992-3003 (2011), citation no. 22, WoS/SCOPUS
(2011)
------------- | | 259.) | M. Blajan, A. Umeda, S. Muramatsu, K. Shimizu: Emission spectroscopy of pulsed powered microplasma for surface treatment of PEN film, IEEE Trans. Plasma Sci. 47 (3), 1100-1108 (2011), citation no.2, SCOPUS
(2011)
------------- | | 260.) | P. Jamróz, W. Zyrnicki: Spectroscopic characterization of miniaturized atmospheric-pressure dc glow discharge generated in contact with flowing small size liquid cathode, Plasma Chem. Plasma Process. 31 (5), 681-696 (2011), citation no. 23, WoS/SCOPUS
(2011)
------------- | | 261.) | A. Nekahi, M. Farzaneh: Rotational temperature measurement of an arc formed over an ice surface, IEEE Trans. Dielectr. El. Insul. 18 (3), 755-759 (2011), citation no. 17, WoS/SCOPUS
(2011)
------------- | | 262.) | M. D. Ionita, M. Teodorescu, T. Acsente, M. Bazavan, E. R. Ionita, G. Dinescu: Remote surface modification of polymeric foils by expanding atmospheric pressure radiofrequency discharges, Romanian J. Phys. 56, 132-138 (2011), citation no. 10, WoS/SCOPUS
(2011)
------------- | | 263.) | K. Shimizu, Y. Komuro, S. Tatematsu, M. Blajan: Study of sterilization and disinfection in room air by using atmospheric microplasma, Pharm. Anal. Acta. 81 (2011), citation no. 45, INDEX
(2011)
------------- | | 264.) | K. Shimizu: Indoor air control by microplasma in Advanced air pollution (ed. F. Nejadkoorki), Intech Press, Croatia, ISBN 978-953-307-511-2, www.intechopen.com (2011) BOOK
(2011)
------------- | | 265.) | K. J. Jankowski; E. Reszke: Principles of operation and construction of microwave plasma cavities in ‘Microwave induced plasma analytical spectrometry’, Book Series: RSC Analytical spectroscopy monographs, 37-93, RSC Publishing, ISBN: 978-1-84973-214-7 (2011), WoS
(2011)
------------- | | 266.) | M. Blajan, A. Umeda, K. Shimizu: Surface treatment of glass by microplasma, Conference Record - IAS Annual Meeting (IEEE Industry Applications Society), art. no. 6074288 (2011), citation no. 10, SCOPUS
(2011)
------------- | | 267.) | G. Weng, Z. Ma: Plasma emission spectroscopy of methyl bromide, Qiangjiguang Yu Lizishu/High Power Laser and Particle Beams 23 (12), 3391-3394 (2011), citation no. 10, SCOPUS
(2011)
------------- | | 268.) | M. Blajan, S. Muramatsu, K. Shimizu: Emission spectroscopy of pulsed powered microplasma, Int. J. Plasma Environ. Sci. Techol. 5 (2), 202-208 (2011), citation no. 1, SCOPUS
(2011)
------------- | | 269.) | V. Grigaitiene, A. Tamosiunas, V. Valincius: Water vapour plasma generation for environmental purposes, 3rd International CEMEPE & SECOTOX Conference Skiathos, June 19-24, 705-709 (2011), citation no. 10
(2011)
------------- | | 270.) | D.K. Pierce, M.G. Mortenson, D.A. Bryce: o D.K. Pierce, M.G. Mortenson, D.A. Bryce: Continuous methods for treating liquids and manufacturing certain constituents (e.g., nanoparticles) in liquids, apparatuses and nanoparticles and nanoparticle/liquid solution(s) resulting therefrom, Patent WO/2009/009143, International Application No. PCT/US2008/008558 (2010), http://www.wipo.int/pctdb/en/ia.jsp?ia=US2008%2F008558&IA=US2008008558
(2010)
------------- | | 271.) | Y. Akishev, M. Grushin, V. Karalnik, A. Petryakov, N. Trushkin: Non-equilibrium constricted dc glow discharge in N2 flow at atmospheric pressure: stable and unstable regimes, J. Phys. D: Appl. Phys. 43 (7), 075202 (2010), citation no. 31, WoS/SCOPUS
(2010)
------------- | | 272.) | J. L. Walsh, F. Iza, N. B. Janson, V. J. Law, M. G. Kong: Three distinct modes in a cold atmospheric pressure plasma jet, J. Phys. D: Appl. Phys. 43, 075201 (2010), citation no. 64, WoS/SCOPUS
(2010)
------------- | | 273.) | M. Asandulesa, I. Topala, N. Dumitrascu: Effect of helium DBD plasma treatment on the surface of wood samples, Holzforschung 64 (2), 223-227 (2010), citation Machala, WoS/SCOPUS
(2010)
------------- | | 274.) | K. Shimizu, M. Yamada, M. Kanamori, M. Blajan: Basic study of bacteria inactivation at low discharge voltage by using microplasmas, IEEE Trans. Industry Appl. 46 (2), 641-649 (2010), citation no. 25, WoS/SCOPUS
(2010)
------------- | | 275.) | Y. Guo, X. Liao, J. He, W. Ou, D. Ye: Effect of manganese oxide catalyst on the dielectric barrier discharge decomposition of toluene, Catal. Today 153 (3-4), 176–183 (2010), citation no. 21, WoS/SCOPUS
(2010)
------------- | | 276.) | M. Begliarbekov, V. Tarnovsky, T. Collins, S. Kotowich: Effects of microfilaments on DC plasma torches and afterglows, IEEE Trans. Plasma Sci. 38 (4) 990-995 (2010), citation no.20, WoS/SCOPUS
(2010)
------------- | | 277.) | Yu. Akishev , M. Grushin, V. Karalnik , A. Petryakov, N. Trushkin: On basic processes sustaining constricted glow discharge in longitudinal N2 flow at atmospheric pressure, J. Phys. D: Appl. Phys. 43 (21), 215202 (2010), citation no. 16, WoS/SCOPUS
(2010)
------------- | | 278.) | K. Shimizu, T. Ishii, M. Blajan: Emission spectroscopy of pulsed power microplasma for atmospheric pollution control, IEEE Trans. Industry Appl. 46 (3), 1125-1131 (2010), citation no. 16, WoS/SCOPUS
(2010)
------------- | | 279.) | L. Ragni, A. Berardinelli, L. Vannini, C. Montanari, F. Sirri, M.E. Guerzoni, A. Guarnieri: Non-thermal atmospheric gas plasma device for surface decontamination of shell eggs, J. Food Engin. 100 (1), 125-132 (2010), citation Machala, WoS/SCOPUS
(2010)
------------- | | 280.) | M. Blajan, S. Muramatsu, T. Ishii, H. Mimura, K. Shimizu: Emission spectroscopy of microplasma driven by a pulsed power supply, J. Inst. Electrostat. Jpn. 34 (2), 99-104 (2010), citation no 2
(2010)
------------- | | 281.) | M. Blajan, K. Shimizu: Diagnostics of pulsed powered microplasma discharge in N2 by emission spectroscopy, 63rd Gaseous Electronics Conference GEC and 7th International Conference on Reactive Plasmas ICRP, Paris (France), October 4-8, paper no. DTP-177 (2010), citation no. 2
(2010)
------------- | | 282.) | H. Park, J. Jeong, Y. Kim: Current controlled plasma-on-a-chip for atmospheric plasma generation, Nanotechnology 2010: Electronics, Devices, Fabrication, MEMS, Fluidics and Computational - 2010 NSTI Nanotechnology Conference and Expo, NSTI-Nanotech 2010, Anaheim (USA), June 21-24, 356-359 (2010), citation no. 1, SCOPUS
(2010)
------------- | | 283.) | D. Z. Pai, D. A. Lacoste, C. O.Laux: Nanosecond repetitively pulsed discharges in air at atmospheric pressure-the spark regime, Plasma Sources Sci. Technol. 19, 065015 (2010), citation Machala, WoS/SCOPUS
(2010)
------------- | | 284.) | M. Blajan, A. Umeda, S. Muramatsu, K. Shimizu: Emission spectroscopy of pulsed powered microplasma for surface treatment of PEN film, Conference Record - IAS Annual Meeting (IEEE Industry Applications Society), art. no. 5614482 (2010), citation no. 2, SCOPUS
(2010)
------------- | | 285.) | B. Hrycak, M. Jasiński, J. Mizeraczyk: Spectroscopic investigations of microwave microplasmas in various gases at atmospheric pressure, Eur. Phys. J. D 60 (3), 609-619 (2010), citation no. 43, WoS/SCOPUS
(2010)
------------- | | 286.) | J. H. Jin, J. H. Kim, Y. M. Kim: Effect of duty cycle on atmospheric plasma generation using micromachined electrodes, Jpn. J. Appl. Phys. 48 (4), 04C196 (2009), citation no. 2, WoS/SCOPUS
(2009)
------------- | | 287.) | P. Bruggeman, D. Schram, M.A. Gonzalez, R. Rego, M.G. Kong, C. Leys: Characterization of a direct dc-excited discharge in water by optical emission spectroscopy, Plasma Sources Sci. Technol. 18, 025017 (2009), citation no. 14, WoS/SCOPUS
(2009)
------------- | | 288.) | S. S. Keskin, N. Aslan, F. Bayrakçeken: Optical properties and chemical behavior of Laser-dye Coumarin-500 and the influence of atmospheric corona discharges, Spectroc. Acta Part B 72, 254-259 (2009), citation no. 17, WoS/SCOPUS
(2009)
------------- | | 289.) | C. Wang, N. Srivastava, S. Scherrer, P. R. Jang, T. S. Dibble, Y. Duan: Optical diagnostics of a low power-low gas flow rates atmospheric-pressure argon plasma created by a microwave plasma torch, Plasma Sources Sci. Technol. 18 (2), 025030 (2009), citation no. 47, WoS/SCOPUS
(2009)
------------- | | 290.) | N. Srivastava, C. Wang, T.S. Dibble: A study of OH radicals in an atmospheric AC discharge plasma using near infrared diode laser cavity ringdown spectroscopy combined with optical emission spectroscopy, Eur. Phys. J. D 54 (1), 77-86 (2009), citation no. 36, WoS
(2009)
------------- | | 291.) | P. Jamroz, W. Zyrnicki: The spectroscopic study of a glow discharge generated between pin electrode and water in open air atmosphere, 19th International Symposium on Plasma Chemistry ISPC 19, Bochum (Germany), July 26-31, CD-ROM, citation no. 4
(2009)
------------- | | 292.) | M. Blajan, T. Ishii, H. Mimura, K. Shimizu: Emission spectrometry of microplasma for NOx removal process, 19th International Symposium on Plasma Chemistry ISPC 19, Bochum (Germany), July 26-31, CD-ROM (2009), citation no. 2
(2009)
------------- | | 293.) | A. A. Garamoon, D. M. El-zeer: Atmospheric pressure glow discharge plasma in air at frequency 50 Hz, Plasma Sources Sci. Technol. 18, 045006 (2009), citation no. 4, WoS/SCOPUS
(2009)
------------- | | 294.) | X. Lu, Q. Xiong, Z. Xiong, J. Hu, F. Zhou, W. Gong, Y. Xian, C. Zhou, Z. Tang, Z. Jiang, Y. Pan: A cold plasma cross made of three bullet-like plasma plumes, Thin Solid Films 518 (3), 967-970 (2009), citation no. 4, WoS/SCOPUS
(2009)
------------- | | 295.) | Y. Xian, X. Lu, Y. Cao, P. Yang, Q. Xiong, Z. Jiang, Y. Pan: On plasma bullet behavior, Trans. Plasma Sci. 37 (10), 2068-2073 (2009), citation no. 10, WoS
(2009)
------------- | | 296.) | P. Bruggeman, D.C. Schram, M.G. Kong, C. Leys: Is the rotational temperature of OH(A–X) for discharges in and in contact with liquids a good diagnostic for determining the gas temperature?, Plasma Process. Polym. 6 (11), 751–762 (2009), citation no. 42, WoS/SCOPUS
(2009)
------------- | | 297.) | L. Vannini, C. Montanari, A. Berardinelli, L. Ragni, F. Sirri: M.E. Guerzoni: Assessment: Assessment of the efficacy of a low-temperature gas plasma prototype for surface decontamination of table eggs, 19th (XIX) European Poultry Symposium on Quality of Poultry Meat, XIII European Symposium on the Quality of Eggs and Egg Products, Turku, Finland, 21-25 June (2009), citation Machala
(2009)
------------- | | 298.) | V. Chernyak, T. Shevchenko: Electric discharge plasma reforming of liquid hydrocarbons into free hydrogen for the use in the aerospace technologies, Aero-Ukraine Workshop "Bridging the Ukrainian Aeronautics
Industry with the European Union", Kiev (Ukraine) October 28-29 (2009), citation no. XX.
(2009)
------------- | | 299.) | S. Welzel: New enhanced sensitivity infrared spectroscopy techniques applied to reactive plasmas and trace gas detection, PhD Thesis, Ernst-Moritz-Arndt-Universität Greifswald (2009) citation no. 35
(2009)
------------- | | 300.) | V. Ya. Chernyak, S. V. Olshewskii, V. V. Yukhymenko, A. I. Shchedrin, D. S. Levko, V. V. Naumov, O. A. Nedybalyuk, S. M. Sidoruk, V. P. Demchina, V. S. Kudryavzev: Plasma reforming of liquid hydrocarbons into free hydrogen for the use in the aerospace technologies, Aero-Ukraine Workshop "Bridging the Ukrainian Aeronautics Industry with the European Union", Kiev (Ukraine) October 28-29 (2009), citation no. X (mozno je to to iste ako predosle)
(2009)
------------- | | 301.) | Y. Guo, X Liao, D. Ye: Detection of hydroxyl radical in plasma reaction on toluene removal, J. Environ. Sci. 20 (12), 1429-1432 (2008), citation no. 9, WoS/SCOPUS
(2008)
------------- | | 302.) | H. Shiki, Y. Ito, H. Takikawa, E. Usuki, T. Okawa, S. Yamanaka, Y. Nishimura, S. Hishida: Fundamental properties of 4-in-1 Plasma energized-jet at atmospheric pressure, Vacuum 83, 29-33 (2008), citation no.11, WoS/SCOPUS
(2008)
------------- | | 303.) | Y. Babou, P. Riviere, M.Y. Perrin, A. Soufiani: Spectroscopic study of microwave plasmas of CO2 and CO2–N2 mixtures at atmospheric pressure, Plasma Sources Sci. Technol. 17 (4), 045010 (2008), citation no. 11, WoS/SCOPUS
(2008)
------------- | | 304.) | I. Prysyazhnevych, V. Chernyak, S. Olszewsky, V. Yukhymenko: Plasma properties of transverse arc at atmospheric pressure, 6th International Symposium on Electromagnetic Devices and Processes in Environment Protection ELMECO-6, Nałęczów (Poland), June 24-28, 23-24 (2008) citation no. 9
(2008)
------------- | | 305.) | P. H. Su, Y. M. Zhu, H. F. Chen: Morphology Determination of ionization region in multi-needle-to-plate negative corona discharge, Spectrosc. Spect. Anal. 27 (11), 2171-2174 (2008), citation no. 8, WoS
(2008)
------------- | | 306.) | P. H. Su, Y. M. Zhu, S. Yang: Using OES to measure distribution of energetic electron in multi-needle-to-plate corona discharge, J. Electrostat. 66 (3-4), 193-196 (2008), citation no. 4, SCOPUS
(2008)
------------- | | 307.) | P. Bruggeman, E. Ribežl, A. Maslani, J. Degroote, A. Malesevic, R. Rego, J. Vierendeels, C. Leys: Characteristics of atmospheric pressure air discharges with a liquid cathode and a metal anode, Plasma Sources Sci. Technol. 17 (2), 025012 (2008), citation no. 13, SCOPUS
(2008)
------------- | | 308.) | В. Я. Черняк, И. В. Присяжневич, С. В. Ольшевський, В. В. Юхименко, А. И. Щедрин, Д. С. Левко, А. В. Рябцев: Поперечные электрические газовые разряды для плазмо-жидкостных систем, 5th International Symposium on Theoretical and Experimental Plasma Chemistry ISTAPC-2008, Ivanovo (Russia), September 3-8, CD-ROM (2008), citation no. 9
(2008)
------------- | | 309.) | I. Prysiazhnevych, V. Chernyak, S. Olzewski, V. Yukhymenko: Plasma properties of transverse blowing arc under atmospheric pressure, Chem. Listy 102 (16), s1403-s1407 (2008), citation no. 9, SCOPUS
(2008)
------------- | | 310.) | P. Bruggeman, J. Liu, J. Degroote, M.G. Kong, J. Vierendeels, C. Leys: DC excited glow discharges in atmospheric pressure air in pin-to-water electrode systems, J. Phys. D: Appl. Phys. 41, 215201 (2008), citation no. 47, SCOPUS
(2008)
------------- | | 311.) | L. V. Ratcliffe, F. J. M. Rutten, D. A. Barrett, T. Whitmore, D. Seymour, C. Greenwood, Y. Aranda-Gonzalvo, S. Robinson, A. McCoustra: Surface analysis under ambient conditions using plasma-assisted desorption/ionization mass spectrometry, Anal. Chem. 79 (16), 6094-6101 (2007), citation no. 37, WoS/SCOPUS
(2007)
------------- |
|
