Citations: 1.) | Li Z.; Liu J.; Lu X.: A large atmospheric pressure nonequilibrium open space air plasma based on a ROTATing electrode; PLASMA SOURCES SCI. TECHNOL. 29 (4) 045015 (2020), WoS (2020) ------------- | 2.) | Li X., Guo T., Peng Z., Xu L., Dong J., Cheng P, Zhou Z.: Real-time monitoring and quantification of organic by-products and mechanism study of acetone decomposition in a dielectric barrier discharge reactor. Environmental Science and Pollution Research 26 (7) 6773-6781 (2019), WoS, SCOPUS (2019) ------------- | 3.) | Redolfi M., Blin-Simiand N., Duten X., Pasquiers S., Hassouni K.: Naphthalene oxidation by different non-thermal electrical discharges at atmospheric pressure. Plasma Science Technol. 21 (5) 055503 (2019), WoS, SCOPUS (2019) ------------- | 4.) | Cimerman R., Rackova D., Hensel, K.: Tars removal by non-thermal plasma and plasma catalysis. J. Physics D-Applied Physics 51 (27) 274003 (2018), WoS, SCOPUS (2018) ------------- | 5.) | Wang C., Lu Z., Li D., Xia W., Xia W.: Effect of the magnetic field on the magnetically stabilized gliding arc discharge and its application in the preparation of carbon black nanoparticles. Plasma Chemistry Plasma Processing, 38 (6) 1223-1238 (2018), WoS, SCOPUS (2018) ------------- | 6.) | Zhu B., Yan Y., Li M., Li X.S., Liu J. L., Zhu Y.M.: Low temperature removal of toluene over Ag/CeO2/Al2O3 nanocatalyst in an atmospheric plasma catalytic system. Plasma Process. Polymers 15 (8) e1700215 (2018), WoS, SCOPUS (2018) ------------- | 7.) | Lee J., Sun H., Im S.K., Bak, M.S.: Formation of nitrogen oxides from atmospheric electrodeless microwave plasmas in nitrogen-oxygen mixtures. J. Applied Physics, 122 (8) 083303 (2017), WoS, SCOPUS (2017) ------------- | 8.) | Xiao G., Xu W., Luo Z., Pang H.: Characteristics of toluene decomposition and adsorbent regeneration based on electrically conductive charcoal particle-triggered discharge. RSC Advances 7 (71) 44696-44705 (2017), WoS, SCOPUS (2017) ------------- | 9.) | Akatsuka H., Kawano H., Naoi K., Matsuura H., Nezu A.: Experimental study on difference in molecular rotation temperatures between neutral molecules and molecular ions in nitrogen plasma and oxygen plasma by optical emission spectroscopy measurement. Japanese Journal of Applied Physics 56 (5) 056102 (2017), WoS, SCOPUS (2017) ------------- | 10.) | Castillo F., Valdes D., Flores O., Campillo B., Martinez H.: Study of an atmospheric-pressure discharge in air. 16th Latin American Workshop on Plasma Physics (LAWPP 2017). New York: IEEE 2017, 37-42 - CPCI-S, SCOPUS (2017) ------------- | 11.) | Zou N; Gu K.; Liu, S.; et al.:
Rapid analysis of pesticide residues in drinking water samples by dispersive solid-phase extraction based on multiwalled carbon nanotubes and pulse glow discharge ion source ion mobility spectrometry, JOURNAL OF SEPARATION SCIENCE 39, 1202-1212 (2016) SCI cit. 34 (2016) ------------- | 12.) | 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, SCOPUS (2016) ------------- | 13.) | Akatsuka H., Shibata T, Nezu A.: Discussion on population kinetics and number densities of excited species of low-pressure discharge nitrogen plasma. IEEE Trans. Electrical Electronic Engineering 11, S9-S18 (2016), WoS, SCOPUS (2016) ------------- | 14.) | Vandenbroucke A.: Abatement of Volatile Organic Compounds by Combined Use of Non-Thermal Plasma and Heterogeneous Catalysis. Gent : Universiteit Gent, 2015, p. 78 (2015) ------------- | 15.) | Pham H.T.: Contribution a l´eude de la dépollution de l´air chargé en composés organiques volatils par un procédé associant un plasma de décharge a barriere diélectrique impulsionnelle et des catalyseurs. Orléans : Université d´Orléans, 2014, p. 191 (2014) ------------- | 16.) | M. Qian; L. Yang; D. Jin; X. Tan: Spectroscopic, electrical diagnostics of dual-power electrodes atmospheric pressure argon plasma plume discharge characteristics, Proc. SPIE 8796, 2nd International Symposium on Laser Interaction with Matter (LIMIS 2012), 879613 (2013); doi:10.1117/12.2010797, SCOPUS cit. 7 (2013) ------------- | 17.) | J. Meichsner, M. Schmidt, R. Schneider, H-E. Wagner (eds): Nonthermal Plasma Chemistry and Physics, CRC Press, Taylor & Francis group, Boca Raton, 2012 (2013) ------------- | 18.) | Qian, Muyang; Fan, Qianqian; Ren, Chunsheng; et al., Dual-power electrodes atmospheric pressure argon plasma jet: Effect of driving frequency (60-130 kHz) on discharge characteristics, THIN SOLID FILMS Volume: 521 Pages: 265-269 DOI: 10.1016/j.tsf.2011.10.154 Published: OCT 30 2012 (2012) ------------- | 19.) | Gutsol, A.; Rabinovich, A.; Fridman, A. ; Combustion-assisted plasma in fuel conversion, J. Phys D - Appl. Phys. 44 (27): Art. No. 274001 ( 2011) (2011) ------------- | 20.) | Vandenbroucke, A.M., Morent, R., De Geyter, N. & Leys, C. 2011, "Non-thermal plasmas for non-catalytic and catalytic VOC abatement", Journal of hazardous materials, vol. 195, pp. 30-54., SCOPUS, cit. no. 80 (2011) ------------- | 21.) | 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 (2010) ------------- | 22.) | 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, 2010, SCI cit. (2010) ------------- | 23.) | Tsuji M., Kawahara T., Kamo N., Miyano M.: Photochemical removal of benzene using 172nm Xe2 excimer lamp in N2/O2 mixtures at atmospheric pressure, Bulletin Chem. Soc. Japan 83 (5), 2010, 582-591 (2010) ------------- | 24.) | Chen L., Zhao P., Shu X., Shen J., Meng Y: On the mechanism of atmospheric pressure plasma plume, Physics of Plasmas 17 (8), 083502, SCOPUS cit. (2010) ------------- | 25.) | Lu XP; Cao YG; Yang P; Xiong Q; Xiong ZL; Xian YB; Pan YA: An atmospheric pressure plasma jet and its biomedical application, 4th INTERNATIONAL CONGRESS ON COLD ATMOSPHERIC PRESSURE PLASMAS: SOURCES AND APPLICATIONS, PROCEEDINGS: 66-72, 2009 (2010) ------------- | 26.) | Xiong Z. et al., On the velocity variation in atmospheric pressure plasma plumes driven by positive and negative pulses, JOURNAL OF APPLIED PHYSICS, Vol 108, Art. No. 103303 (2010) - SCI/SCOPUS (2010) ------------- | 27.) | Z. Fang, L.L. Hao, H. Yang, X.Q. Xie, Y.C. Qiu, K. Edmund: Polytetrafluoroethylene surface modification by filamentary and homogeneous dielectric barrier discharges in air, Appl. Surf. Sci. 255 (2009) 7279-7285, SCI cit. 20 (2009) ------------- | 28.) | X. Lu, Y. Cao, P. Yang, Q. Xiong, Z. Xiong, Y. Xian, Y. Pan: An RC Plasma Device for Sterilization of Root Canal of Teeth, IEEE Trans. Plasma Sci. 37 (2009) 668-673, SCI cit. 8 (2009) ------------- | 29.) | M. R. King: The Plasma Flame: Development and Application of a Hybrid Plasma at Atmospheric Pressure, MSc. thesis, North Carolina State University, Raleigh 2009 (2009) ------------- | 30.) | K. Shang, X. Wang, X. Zhou, N. Wang: Diagnosis of electron temperature in Ar/O2 mixed gas and destruction of toluene/benzene by positive dc discharge plasma, J. Electrostat. 67 (2009) 746-750, SCI cit. 2 (2009) ------------- | 31.) | X. Lu, T. Ye, Y. Cao, Z. Sun, Q. Xiong, Z. Tang, Z. Xiong, J. Hu, Z. Jiang, Y. Pan: The roles of the various plasma agents in the inactivation of bacteria, J. Appl. Phys. 104 (2008) art. no. 053309, SCI cit. 9 (2008) ------------- | 32.) | N. Blin-Simiand, F. Jorand, L. Magne, S. Pasquiers, C. Postel, J.-R. Vacher: Plasma Reactivity and Plasma-Surface Interactions During Treatment of Toluene by a Dielectric Barrier Discharge, Plasma Chem. Plasma Process. 28 (2008) 429-466, SCI cit. 27 (2008) ------------- | 33.) | C. Dong, W.G. Wang, H.Y. Li: Atmospheric pressure air direct current glow discharge ionization source for ion mobility spectrometry, Analyt. Chem. 80 (10) (2008) 3925-3930, SCI cit. (2008) ------------- | 34.) | X. Lu, Z. Jiang, Q. Xiong, Z. Tang, Y. Pan: A single electrode room-temperature plasma jet device for biomedical applications, Applied Physics Letters 92 (15), art. no. 151504 (2008), SCI cit. 2 (2008) ------------- | 35.) | W. Miśta, R. Kacprzyk: Decomposition of Toluene using Non-Thermal Plasma Reactor at Room Temperature, Catalysis Today 137 (2008) 345-349, SCI cit. 13 (2008) ------------- | 36.) | X. Lu, Z. Jiang, Q. Xiong, Z. Tang, X. Hu, Y. Pan: An 11 cm long atmospheric pressure cold plasma plume for applications of plasma medicine, Applied Physics Letters 92, art. no. 081502 (2008), SCI cit. 4 (2008) ------------- | 37.) | Wei C, Li J, Zhu T, Li F: Effects of energy injection on removal of benzene hydrocarbons
in the air by discharge plasma, Chinese J. Environmental Engineering 2 (2008) 239-242, cit. 5 (2008) ------------- | 38.) | P. Vander Schelden: FT-IR studie van afbraakprocessen van vluchtige organische stoffen via atmosferische plasma’s, PhD thesis, Universiteit Gent, Belgium, 2008 (2008) ------------- | 39.) | S. Muller, R.J. Zahn: „Air pollution control by non-thermal plasma, Contrib. Plasma Phys. 47, No. 7, 520–529 (2007), SCI cit. 22 (2007) ------------- | 40.) | XP Lu: Effects of gas temperature and electron temperature on species concentration of air plasmas, J. Appl. Phys. 102 (3) (2007) Art. No. 033302, SCI cit. 25 (2007) ------------- | 41.) | N. Blin-Simiand, F. Jorand, Z. Belhadj-Miled, S. Pasquiers, C. Postel: Influence of Temperature on the Removal of Toluene by Dielectric Barrier Discharge, Int. J. Plasma Environmental Sci. & Technol. 1 (2007) 64-70, cit. 18 (2007) ------------- | 42.) | J. Li, T. Zhu, X. Fan, W. He: Decomposition of Dilute VOCs in Air by a Streamer Discharge, Int. J. Plasma Environmental Sci. & Technol. 1 (2007) 141-145, cit. 19 (2007) ------------- | 43.) | XP Lu, M. Laroussi: Temporal and spatial emission behavior of homogeneous dielectric barrier discharge driven by unipolar sub-microsecond square pulses, J. Phys. D: Appl. Phys. 39 (2006) 1127-1131, SCI cit. 2 (2006) ------------- | 44.) | XP Lu, M. Laroussi: Dynamics of an atmospheric pressure plasma plume generated by submicrosecond voltage pulses, J. Appl. Phys. 100 (2006) Art. No. 063302., SCI cit. 2 (2006) ------------- | 45.) | Li J., Zhu T.L., Fan X., He W.: Product analysis of VOCs decomposition by streamer discharge, in Bai M.; Chang J.S.; Zhang Z.; Liu C.: Progress of Green Oxidation/Reduction Technologies (2006) 231-234 (2nd Asia-Pacific International Symposium on Air and Water Treatments by Green Oxidation/Reduction Technologies-Catalyst Plasma and Hybrid Systems, Dalian, China, Sep. 2006), SCI (2006) ------------- | 46.) | N. Blin-Simiand, F. Jorand, Z. Belhadj-Miled, S. Pasquiers, C. Postel: Influence of temperature on the removal of toluene by dielectric barrier discharge, 5th Int. Symp. Non-thermal Plasma Technol., Oleron, France, May 2006, cit. 11 (2006) ------------- | |