Plasma–liquid interactions: a review and roadmap PJ Bruggeman, MJ Kushner, BR Locke, JGE Gardeniers, WG Graham, ... Plasma sources science and technology 25 (5), 053002, 2016 | 1535 | 2016 |
Microplasmas: Sources, particle kinetics, and biomedical applications F Iza, GJ Kim, SM Lee, JK Lee, JL Walsh, YT Zhang, MG Kong Plasma Processes and Polymers 5 (4), 322-344, 2008 | 617 | 2008 |
Global model of low-temperature atmospheric-pressure He+ H2O plasmas DX Liu, P Bruggeman, F Iza, MZ Rong, MG Kong Plasma Sources Science and Technology 19 (2), 025018, 2010 | 481 | 2010 |
Three distinct modes in a cold atmospheric pressure plasma jet JL Walsh, F Iza, NB Janson, VJ Law, MG Kong Journal of Physics D: Applied Physics 43 (7), 075201, 2010 | 426 | 2010 |
Particle and fluid simulations of low-temperature plasma discharges: benchmarks and kinetic effects HC Kim, F Iza, SS Yang, M Radmilović-Radjenović, JK Lee Journal of Physics D: Applied Physics 38 (19), R283, 2005 | 374 | 2005 |
Foundations of atmospheric pressure non-equilibrium plasmas PJ Bruggeman, F Iza, R Brandenburg Plasma Sources Science and Technology 26 (12), 123002, 2017 | 336 | 2017 |
Electron kinetics in radio-frequency atmospheric-pressure microplasmas F Iza, JK Lee, MG Kong Physical Review Letters 99 (7), 075004, 2007 | 266 | 2007 |
Air plasma coupled with antibody-conjugated nanoparticles: a new weapon against cancer GC Kim, GJ Kim, SR Park, SM Jeon, HJ Seo, F Iza, JK Lee Journal of Physics D: Applied Physics 42 (3), 032005, 2008 | 258 | 2008 |
Main Species and Physicochemical Processes in Cold Atmospheric‐pressure He + O2 Plasmas DX Liu, MZ Rong, XH Wang, F Iza, MG Kong, P Bruggeman Plasma Processes and Polymers 7 (9‐10), 846-865, 2010 | 210 | 2010 |
Low-power microwave plasma source based on a microstrip split-ring resonator F Iza, JA Hopwood IEEE transactions on plasma science 31 (4), 782-787, 2003 | 197 | 2003 |
Split-ring resonator microplasma: microwave model, plasma impedance and power efficiency F Iza, J Hopwood Plasma Sources Science and Technology 14 (2), 397, 2005 | 176 | 2005 |
Electronic quenching of OH (A) by water in atmospheric pressure plasmas and its influence on the gas temperature determination by OH (A–X) emission P Bruggeman, F Iza, P Guns, D Lauwers, MG Kong, YA Gonzalvo, C Leys, ... Plasma Sources Science and Technology 19 (1), 015016, 2009 | 161 | 2009 |
Microwave-excited atmospheric-pressure microplasmas based on a coaxial transmission line resonator J Choi, F Iza, HJ Do, JK Lee, MH Cho Plasma Sources Science and Technology 18 (2), 025029, 2009 | 156 | 2009 |
Contrasting characteristics of sub-microsecond pulsed atmospheric air and atmospheric pressure helium–oxygen glow discharges JL Walsh, DX Liu, F Iza, MZ Rong, MG Kong Journal of Physics D: Applied Physics 43 (3), 032001, 2010 | 150 | 2010 |
Particle-in-cell simulation of gas breakdown in microgaps M Radmilović-Radjenović, JK Lee, F Iza, GY Park Journal of physics D: applied physics 38 (6), 950, 2005 | 144 | 2005 |
Mass spectrometry study of positive and negative ions in a capacitively coupled atmospheric pressure RF excited glow discharge in He–water mixtures P Bruggeman, F Iza, D Lauwers, YA Gonzalvo Journal of Physics D: Applied Physics 43 (1), 012003, 2009 | 139 | 2009 |
Rotational, vibrational, and excitation temperatures of a microwave-frequency microplasma F Iza, JA Hopwood IEEE transactions on plasma science 32 (2), 498-504, 2004 | 129 | 2004 |
Electron and ion kinetics in a DC microplasma at atmospheric pressure J Choi, F Iza, JK Lee, CM Ryu IEEE transactions on plasma science 35 (5), 1274-1278, 2007 | 115 | 2007 |
A microfabricated atmospheric-pressure microplasma source operating in air J Hopwood, F Iza, S Coy, DB Fenner Journal of Physics D: Applied Physics 38 (11), 1698, 2005 | 106 | 2005 |
Electron heating in radio-frequency capacitively coupled atmospheric-pressure plasmas DW Liu, F Iza, MG Kong Applied Physics Letters 93 (26), 2008 | 104 | 2008 |