School of Electronic, Electrical and Systems Engineering

View all Dr Iza’s publications in the central publications database

Selected Publications

2011

1. Complex responses of microorganisms as a community to a flowing atmospheric plasma
   D.L. Bayliss, J.L. Walsh, F. Iza, G. Shama, J. Holah, M.G. Kong
   Plasma Process. Polym. (2011)
2. 1-d fluid model of atmospheric-pressure RF He+O2 cold plasmas: Parametric study
   A. Yang, X.H. Wang, M.Z. Rong, D.X. Liu, F. Iza,M.G. Kong
   Phys. Plasmas 18, 113503 (2011)
3. Double-layer structures in low-temperature atmospheric-pressure electronegative rf microplasmas: separation of electrons and anions
   K. McKay, D.X. Liu, F. Iza, M.Z. Rong, M.G. Kong
   IEEE Trans. Plasma Sci. 39, 2138 (2011)
4. Dynamics and particle fluxes in atmospheric-pressure electronegative radio frequency microplasmas
   K. McKay, D.X. Liu, F. Iza, M.Z. Rong, M.G. Kong
   Appl. Phys. Lett. 99, 091501 (2011)
5. He+O₂+H₂O plasmas as a source of reactive oxygen species
   D.X. Liu, F. Iza, X. Wang, M.G. Kong, M.Z. Rong
   Appl. Phys. Lett. 98, 221501 (2011)
6. Plasma plume propagation characteristics of pulsed radio frequency plasma jet
   J.H. Liu, X.Y. Liu, K. Hu, D.W. Liu, X.P. Lu, F. Iza, M.G. Kong
   Appl. Phys. Lett. 98, 151502 (2011)

2010

1. Characterisation of a 3 nanosecond pulsed atmospheric pressure argon microplasma
   J. L. Walsh, F. Iza and M. G. Kong
   Eur. Phys. J. D 60, pp 523 (2010)
2. Excitation frequency effects on atmospheric-pressure helium RF microplasmas: plasma density, electron energy and plasma impedance
   K. McKay, F. Iza and M. G. Kong
   Eur. Phys. J. D 60, pp 497 (2010)
3. Main Species and Physicochemical Processes in Cold Atmospheric-pressure He + O₂ Plasmas
   D.X. Liu, M.Z. Rong, X.H. Wang, F. Iza, M.G. Kong and P. Bruggeman
   Plasma Process. Polym. 7, pp 846 (2010)
4. Global model of low-temperature atmospheric-pressure He + H2O plasmas
   D.X. Liu, P. Bruggeman, F. Iza, M.Z. Rong and M.G. Kong
   Plasma Sourc. Sci. Technol. 19, pp 025018 (2010)
5. Three distinct modes in a cold atmospheric pressure plasma jet
   J.L. Walsh, V. Law, F. Iza, M.G. Kong?, N.B. Janson
   J. Phys. D: Appl. Phys. 43, pp 075201 (2010)
6. Contrasting characteristics of sub-microsecond pulsed atmospheric air and atmospheric pressure helium-oxygen glow discharges
   J.L. Walsh, D.X. Liu, F. Iza, M.Z. Rong and M.G. Kong
   J. Phys. D: Appl. Phys. 43, pp 32001 (2010)
7. Portable microwave plasma generator capable of generating plasma with low electric power (Patent)
   J. Choi, F. Iza and J.K. Lee
   US Patent Application 20100052539
8. 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 and Y. Aranda Gonzalvo
   J. Phys. D: Appl. Phys. 43, pp 012003 (2010)
9. 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, M.G. Kong, Y. Aranda Gonzalvo, C. Leys and D.C. Schram
   Plasma Sourc. Sci. Technol. 19, pp 15016 (2010)

2009

1. Reduction and degradation of amyloid aggregates by a pulsed radio-frequency cold atmospheric plasma jet
   D.L. Bayliss, J.L. Walsh, G. Shama, F. Iza and M.G. Kong
   New J. Phys. 11, pp 115024 (2009)
2. Electron avalanches and diffused gamma-mode in radio-frequency capacitively coupled atmospheric-pressure microplasmas
   D.W. Liu, F. Iza, and M.G. Kong
   Appl. Phys. Lett. 95, pp 031501 (2009)
3. From Submicrosecond- to Nanosecond-Pulsed Atmospheric-Pressure Plasmas (Invited)
   F. Iza, J.L. Walsh, M.G. Kong
   IEEE Trans. Plasma Sci. 37, pp 1289-1296 (2009)
4. Evolution of Atmospheric-Pressure RF Plasmas as the Excitation Frequency Increases
   D.W. Liu, F. Iza, and M.G. Kong
   Plasma Process. Polymers 6, pp 446-150 (2009)
5. Antibody nanoparticles: a new weapon against cancer
   G.C. Kim, G.J. Kim, S.R. Park, S.M. Jeon, H.J. Seo, F. Iza, and J.K. Lee
   Europhysics News 40, pp 14 (2009)
6. Microwave-excited atmospheric-pressure microplasmas based on a coaxial transmission line resonator
   J. Choi, F. Iza, H.J. Do, J.K. Lee, M.H. Cho
   Plasma Sourc. Sci. Technol. 18, pp 025029 (2009)
7. Simulations of biomedical atmospheric-pressure discharges
   S.M. Lee, Y.J. Hong, Y.S. Seo, F. Iza, G.C. Kim, J.K. Lee
   Comput. Phys. Commun. 180, pp 636-641 (2009)
8. Field emission and lifetime of microcavity plasma
   G.J.Kim, F.Iza, J.K. Lee
   Phys.Plasmas 16, pp 013502 (2009)
9. Air plasma coupled with antibody-conjugated nanoparticles: a new weapon against cancer
   G.C. Kim, G.J. Kim, S.R. Park, S.M. Jeon, H.J. Seo, F. Iza, and J.K. Lee
   J. Phys. D: Appl. Phys. 42, pp 032005 (2009)

2008

1. Two-Dimensional Particle Simulations for Microhollow Cathode Discharges: Comparison of secondary electron emission models
   Y. J.Hong, M. Yoon, G. J. Kim, F. Iza, J. K. Lee
   J. Korean Phys. Soc. 53, pp 3777 (2008)
2. Electron heating in radio-frequency capacitively coupled atmospheric-pressure plasmas
   D.W. Liu, F. Iza, and M.G. Kong
   Appl. Phys. Lett. 93, pp 261503 (2008)
3. Atmospheric glow discharges from the high-frequency to very high-frequency bands
   J.L. Walsh, F. Iza, and M.G. Kong
   Appl. Phys. Lett. 93, pp 251502 (2008)
4. Atmospheric-pressure gas breakdown from 2 to 100 MHz
   J.L. Walsh, Y.T. Zhang, F. Iza, and M.G. Kong
   Appl. Phys. Lett. 93, pp 221505 (2008)
5. Comparison of fluid and particle-in-cell simulations on atmospheric pressure helium microdischarges
   Y.J. Hong, M. Yoon, F. Iza, G.C. Kim, J.K. Lee
   J. Phys. D: Appl. Phys. 41, pp 245208 (2008)
6. Evolution of the Light Emission Profile in Radio-Frequency Atmospheric Pressure Glow Discharges
   D. Liu, F. Iza and M.G. Kong
   IEEE Trans. Plasma Sci. 36, pp 952-953 (2008)
7. Microplasmas: Sources, Particle Kinetics, and Biomedical Applications (Review)
   F. Iza, G.J. Kim, S.M. Lee, et al
   Plasma Processes and Polymers 5, pp 322-344 (2008)

2007

1. Low-pressure plasma generation inside slender tubes
   F. Iza and J.K. Lee
   Comput. Phys. Commun. 177, pp 72-75 (2007)
2. Evolution of the electron energy distribution function in pulsed micro hollow cathode discharge
   G.J. Kim, Y.J. Hong, F. Iza and J.K. Lee
   Comput. Phys. Commun. 177, pp 131-131 (2007)
3. Electron kinetics in radio-frequency atmospheric-pressure microplasmas
   F. Iza, J.K. Lee and M.G. Kong
   Phys. Rev. Lett. 99, pp 75004 (2007)
4. Electron and ion kinetics in a DC microplasma at atmospheric pressure
   J. Choi, F. Iza, J.K. Lee and C.M. Ryu
   IEEE Trans. Plasma Sci. 35, pp 1274-1278 (2007)
5. Computer Modeling of low-temperature plasmas
   F. Iza, S.H. Lee and J.K. Lee
   Gas Discharges: Fundamentals and Applications, Ed. de Amorim Filho, J.
   Research Signpost, 2007 - ISBN: 978-81-7895-287-1 (2007)
6. Advanced Simulations for Industrial Plasma Applications
   S.J. Kim, F. Iza, N. Babaeva, S.H. Lee, H.J. Lee and J.K. Lee
   Advanced Plasma Technology, Ed. R. d'Agostino, P. Favia, Y. Kawai, H. Ikegami, N. Sato and F. Arefi-khonsari.
   Wiley-VCH, 2007 - ISBN: 978-3-527-40591-6 (2007)
7. Abnormal Heating of Low-Energy Electrons in Low-Pressure Capacitively Coupled Discharges
   G.Y. Park, S.J. You, F. Iza and J.K. Lee
   Phys. Rev. Lett. 98, pp 85003 (2007)

2006

1. Secondary electron emission coefficients in plasma display panels as determined by particle and fluid simulations
   S.S. Yang, S.M. Lee, F. Iza and J.K. Lee
   J. Phys. D: Appl. Phys. 39, pp 2775-2784 (2006)
2. Particle-in-cell simulations of planar and cylindrical Langmuir probes: Floating potential and ion saturation current
   F. Iza and J.K. Lee
   J. Vac. Sci. Technol. A 24, pp 1366-1372 (2006)
3. Particle-in-cell Monte Carlo and fluid simulations of argon-oxygen plasma: Comparisons with experiments and validations
   S.H. Lee, F. Iza and J.K. Lee
   Phys. Plasmas 13, pp 57102 (2006)
4. Moment conserving method for modelling multiple collisions in particle simulations
   F. Iza and J.K. Lee
   J. Phys. D: Appl. Phys. 39, pp 1853-1865 (2006)
5. Electron and ion kinetics in a micro hollow cathode discharge
   G.J. Kim, F. Iza and J.K. Lee
   J. Phys. D: Appl. Phys. 39, pp 4386-4392 (2006)

2005

1. Low-power plasma generator (Patent)
   J. Hopwood and F. Iza
   US Patent 6,917,165
   Licensed to Verionix and Agilent. (2005)
2. Split-ring resonator microplasma: microwave model, plasma impedance and power efficiency
   F. Iza and J. Hopwood
   Plasma Sourc. Sci. Technol. 14, pp 397-406 (2005)
3. Self-Organized Filaments, Striations and Other Nonuniformities in Nonthermal Atmospheric Microwave Excited Microdischarges
   F. Iza and J.A. Hopwood
   IEEE Trans. Plasma Sci. 33, pp 306-307 (2005)
4. Particle-in-cell simulation of gas breakdown in microgaps
   M. Radmilovic-Radjenovic, J.K. Lee, F. Iza and G.Y. Park
   J. Phys. D: Appl. Phys. 38, pp 950-954 (2005)
5. Particle and fluid simulations of low-temperature plasma discharges: benchmarks and kinetic effects (Review)
   H.C. Kim, F. Iza, S.S. Yang, M. Radmilovic-Radjenovic and J.K. Lee
   J. Phys. D: Appl. Phys. 38, pp R283-R301 (2005)
6. A microfabricated atmospheric-pressure microplasma source operating in air
   J.A. Hopwood, F. Iza, S. Coy and D.B. Fenner
   J. Phys. D: Appl. Phys. 38, pp 1698-1703 (2005)
7. The mechanism of striation formation in plasma display panels
   F. Iza, S.S. Yang, H.C. Kim and J.K. Lee
   J. Applied Phys. 98, pp 43302 (2005)

2004

1. Ultrahigh frequency microplasmas from 1 pascal to 1 atmosphere
   J.A. Hopwood and F. Iza
   J. Anal. Atom. Spect. 19, pp 1145-1150 (2004)
2. Rotational, vibrational, and excitation temperatures of a microwave-frequency microplasma
   F. Iza and J.A. Hopwood
   IEEE Trans. Plasma Sci. 32, pp 498-504 (2004)

2003

1. Low-power microwave plasma source based on a microstrip split-ring resonator
   F. Iza and J.A. Hopwood
   IEEE Trans. Plasma Sci. 31, pp 782-787 (2003)

2002

1. Influence of operating frequency and coupling coefficient on the efficiency of microfabricated inductively coupled plasma sources
   F. Iza and J.A. Hopwood
   Plasma Sourc. Sci. Technol. 11, pp 229-235 (2002)