doc. Mgr. Gregor Bánó, PhD.


Stages abroad

1996 (3 months) University of Innsbruck, Austria
1999–2002 (8 months) JILA Boulder, USA
2002–2003 (6 months) Charles University, Prague, Czech Rep.
2005 and 2007 (6 months) University of Colorado, Boulder, USA


  1. J. Glosík, G. Bánó, E.E. Ferguson, W. Lindinger: Selected ion flow drift tube study of the formation and dissociation of CO+.N2 ions in nitrogen buffer gas: the CO+.N2 bond energy, Int. J. Mass Spectr. 176, 177–188 (1998)
  2. J. Glosík, G. Bánó, R. Plašil, A. Luca, P. Zakouril: Study of the electron ion recombination in high pressure flowing afterglow: recombination of NH4.(NH3)2, Int. J. Mass Spectr. 189, 103–113 (1999)
  3. Z. Donkó, G. Bánó, L. Szalai, K. Kutasi, K. Rózsa, M. Pinheiro, N. Pinhao: Investigations on the effect of constriction in the cathode region of argon glow discharges, J. Phys. D: Appl. Phys. 32, 2416–2425 (1999)
  4. G. Bánó, L. Szalai, K. Kutasi, P. Hartmann, Z. Donkó, K. Rózsa, Á. Kiss, T. M. Adamowicz: Operation characteristics of the Au-II 690-nm laser transition in a segmented hollow-cathode discharge, Appl. Phys. B. 70, 521–525 (2000)
  5. P. Hartmann, Z. Donkó, G. Bánó, L. Szalai, and K. Rózsa: Effect of different elementary processes on the breakdown in low-pressure helium gas, Plasma Sources Science and Technology 9, 183–190 (2000)
  6. G. Bánó, P. Horváth, K. Rózsa: Cathaphoretic confinement of Zinc evaporated into helium and neon discharges, J. Phys. D: Appl. Phys. 33, 2611–2617 (2000)
  7. A. Bogaerts, Z. Donkó, K, Kutasi, G. Bánó, N. Pinhao, M. Pinheiro: Comparison of calculated and measured optical emission intensities in a direct current argon-copper glow discharge, Spectrochimica Acta B. 55, 1465–1479 (2000)
  8. G. Bánó, A. Luca, J. Glosík, P. Zakouřil, W. Lindinger: Formation of SiH3+ ions in reactions of small hydrocarbon ions with SiH4, Czech. J. Phys., 50, Suppl. S3, 251–257, (2000)
  9. K. Rózsa, G. Bánó, A. Gallagher: The location of very small particles in silan RF discharge, IEEE Trans. on Plasma Sci. 29, 256–260 (2001)
  10. P. Macko, R. Plašil, P. Kudrna, P. Hlavenka, V. Poteyra, A. Pysanenko, G. Bánó, J. Glosík: High-resolution cw-diode laser cavity ring-down spectroscopy in hydrogen plasma at room temperature, Czech. J. Phys. 52, Suppl. D, D695-D704 (2002)
  11. G. Bánó, L. Szalai, P. Horváth, K. Kutasi, Z. Donkó, K. Rózsa, T. M. Adamowicz: Au-II 282 nm segmented hollow cathode laser – parametric studies and self-consistent modeling; J. Appl. Phys. 92, 6372 (2002)
  12. A. Gallagher, G. Bánó, K. Rózsa: Particles in silicon deposition discharges, Solar Energy Materials & Solar Cells 78, 27–40 (2003)
  13. G. Bánó, P. Horváth, Z. Donkó, K. Rózsa, T. M. Adamowicz: Sputtered and heated high-voltage hollow-cathode zinc lasers, Appl. Phys. B. 77, 403–407 (2003)
  14. P. Macko, G. Bánó, P. Hlavenka, R. Plasil, V. Poterya, A. Pysanenko, O. Votava, R. Johnsen, J. Glosík: Afterglow studies of H3+(v=0) recombination using time resolved cw-diode laser cavity ring-down spectroscopy, Int. J. Mass Spectr. 233, 299–304 (2004)
  15. G. Bánó, P. Horváth, L. Csillag, J. Glosík, T. M. Adamowicz, K. Rózsa: 224 nm segmented hollow-cathode silver ion laser, Appl. Phys. B. 80, 215–219 (2005)
  16. K. Kutasi, P. Hartmann, G. Bánó, Z. Donkó: He2+ molecular ions in helium glow discharges: the effect of bulk electron temperature, Plasma Sources Sci. Technol. 14, S1-S8 (2005)
  17. G. Bánó, P. Horváth, K. Rózsa, A. Gallagher, The role of higher silanes in silane-discharge particle growth, J. Appl. Phys. 98, 013304 (2005)
  18. P. Hlavenka, R. Plašil, G. Bánó, I. Korolov, D. Gerlich, J. Ramanlal, J. Tennyson and J. Glosík: Near infrared second overtone cw-cavity ringdown spectroscopy of D2H+ ions, Int. J. Mass Spectr. 255–256, 170–176 (2006)
  19. Z. Sternovsky, K. Amyx, G. Bano, M. Landgraf, M. Horanyi, S. Knappmiller, S. Robertson, E. Grün, R. Srama, S. Auer: Large area mass analyzer instrument for the chemical analysis of interstellar dust particles, Rev. Sci. Instrum. 78, 014501 (2007)
  20. G. Bánó, P. Hartmann, K. Kutasi, P. Horváth, R. Plašil, P. Hlavenka, J. Glosík, Z. Donkó: Combined Langmuir probe, electrical and hybrid modelling characterization of helium glow discharges, Plasma Sources Sci. Technol. 16, 492–500 (2007)
  21. G. Bánó, P. Horváth, T. M. Adamowicz, K. Rózsa: A novel design and operation scheme for a 224 nm segmented hollow-cathode silver ion laser, Appl. Phys. B. 89, 333–337 (2007)
  22. A. Derzsi, P. Hartmann, I. Korolov, J. Karácsony, G. Bánó, Z. Donkó: On the accuracy and limitations of fluid models of the cathode region of dc glow discharges, J. Phys. D: Appl. Phys. 42, 225204 (2009)
  23. R. Plašil, I. Korolov, T. Kotrik, P. Dohna, G. Bánó, Z. Donkó, J. Glosík: Non-Maxwellian electron energy distribution function in He, He/Ar, He/Xe/H-2 and He/Xe/D-2 low temperature afterglow plasma, Eur. Phys. J. D. 54, 391–398 (2009)
  24. I. Korolov, G. Bánó, Z. Donkó, A. Derzsi, P. Hartmann: Experimental study of the asymmetric charge transfer reaction between Ar+ ions and Fe atoms, J. Chem. Phys. 134, 064308 (2011)
  25. G. Bánó, J. Staničová, D. Jancura, J. Marek, M. Bánó, J. Uličný, A. Strejčková, P. Miškovský: On the diffusion of hypericin in dimethylsulfoxide/water mixtures – the effect of aggregation, J. Phys. Chem. B. 115, 2417–2423 (2011)
  26. I. Korolov, G. Bánó, Z. Donkó: Investigation of the asymmetric charge exchange reaction in the Ar±Ni system in the afterglow of a pulsed glow discharge, Spectrochim. Acta B. 66, 706–7011 (2011)
  27. G. Bánó, Z. Donkó: On the high argon metastable atom density measured near the cathode surface of a hollow cathode discharge, Plasma Sources Sci. Technol. 21, 035011 (2012)
  28. A. Strejčková, J. Staničová, D. Jancura, P. Miškovský, and G. Bánó: Spatial orientation and electric-field-driven transport of Hypericin inside of bilayer lipid membranes, J. Phys. Chem. B. 117, 1280–1286 (2013)
  29. M. A. Omar, P. Miskovsky, G. Bánó: Proof-of-principle for simple microshelter-assisted buffer exchange in laser tweezers: interaction of Hypericin with single cells, Lab Chip 14, 1579–1584 (2014)
  30. J. Varchola,V. Huntosova, D. Jancura, G. Wagnieres, P. Miskovsky, G. Bánó: Temperature and oxygen-concentration dependence of singlet oxygen production by RuPhen as induced by quasi-continuous excitation, Photochem. Photobiol. Sci. 13, 1781–1787 (2014)
  31. G. Vizsnyiczai, T. Lestyán, J. Joniova, B. L. Aekbote, A. Strejčková, P. Ormos, P. Miskovsky, L. Kelemen, G. Bánó: Optically Trapped Surface-Enhanced Raman Probes Prepared by Silver Photoreduction to 3D microstructures, Langmuir 31, 10087−10093 (2015)
  32. J. Varchola, K. Želonková, D. Chorvat Jr, D. Jancura, P. Miskovsky, G. Bánó: Singlet oxygen produced by quasi-continuous photo-excitation of hypericin in dimethyl-sulfoxide, J Lumin 177, 17–21 (2016)
  33. J. Joniova, M. Rebič, A. Strejčková, V. Huntosova, J. Staničová, D. Jancura, P. Miskovsky, G. Bánó: Formation of Large Hypericin Aggregates in Giant Unilamellar Vesicles – Experiments and Modeling, Biophys. J. 112, 966–975 (2017)
  34. A. Hovan, S. Datta, S. G. Kruglik, D. Jancura, P. Miskovsky, G. Bánó: Phosphorescence Kinetics of Singlet Oxygen Produced by Photosensitization in Spherical Nanoparticles. Part I. Theory, J. Phys. Chem. B 122, 5147–5153 (2018)
  35. S. Datta, A. Hovan, A. Jutková, S. G. Kruglik, D. Jancura, P. Miskovsky, G. Bánó: Phosphorescence Kinetics of Singlet Oxygen Produced by Photosensitization in Spherical Nanoparticles. Part II. The case of Hypericin-loaded Low-Density Lipoprotein Particles, J. Phys. Chem. B 122, 5154–5160 (2018)
  36. J. Joniova, V. Kazikova, E. Gerelli, G. Bano, G. Wagnieres: Measurements of the optical coefficients of the protoporphyrin IX endogenously producing yeast-based model in the visible and NIR, J. Biomed. Opt. 23, 075001 (2018)
  37. M. Petrenčáková, F. Filandr, A. Hovan, G. Yassaghi, P. Man, T. Kožár, M. Schwer, D. Jancura, A. Plückthun, P. Novák, P. Miškovský, G. Bánó, E. Sedlák: Photoinduced damage of AsLOV2 domain is accompanied by increased singlet oxygen production due to flavin dissociation, Scientific Reports 10:4119 (2020)
  38. M. Suváková, M. Majerník, R. Jendzelovsky, A. Hovan, G. Bánó, P. Fedoročko, M. Antalík: In vitro study of disodium cromoglicate as a novel effective hydrotrope solvent for hypericin utilisation in photodynamic therapy, J. Photochem. Photobiol B – Biology 206:111855 (2020)
  39. J. Kubacková, G. T. Iványi, V. Kažiková, A. Strejčková, A. Hovan, G. Žoldák, G. Vizsnyiczai, L. Kelemen, Z. Tomori, G. Bánó: Bending dynamics of viscoelastic photopolymer nanowires, Appl. Phys. Lett. 117, 013701 (2020)
  40. A. Hovan, M. Berta, D. Sedláková, P. Miskovsky, G. Bánó, E. Sedlák: Heme is responsible for enhanced singlet oxygen deactivation in cytochrome C, Physical Chemistry Chemical Physics, 23, 15557–15563 (2021)
  41. G. Bánó, J. Kubacková, A. Hovan, A. Strejčková, G. T. Iványi, G. Vizsnyiczai, L. Kelemen, G. Žoldák, Z. Tomori and D. Horvath: Power Spectral Density Analysis of Nanowire-Anchored Fluctuating Microbead Reveals a Double Lorentzian Distribution, Mathematics 9, 1748 (2021)
  42. J. Kubacková, C. Slabý, D. Horvath, A. Hovan, G.T. Iványi, G. Vizsnyiczai, L. Kelemen, G. Žoldák, Z. Tomori, G. Bánó, Assessing the Viscoelasticity of Photopolymer Nanowires Using a Three-Parameter Solid Model for Bending Recovery Motion. Nanomaterials 11, 2961 (2021)
  43. V. Pevná, M. Máčajová, A. Hovan, G. Bánó, M. Meta, B. Bilčík, J. Palková and V. Huntošová, Spheroidal Model of SKBR3 and U87MG Cancer Cells for Live Imaging of Caspase-3 during Apoptosis Induced by Singlet Oxygen in Photodynamic Therapy, Biomedicines 10, 2141(2022)
  44. A. Hovan, D. Sedláková, M. Berta, G. Bánó and Erik Sedlák, Singlet oxygen quenching as a probe for cytochrome c molten globule state formation, Phys. Chem. Chem. Phys. 24, 13317 (2022)
  45. D. Horvath, C. Slabý, Z. Tomori, A. Hovan, P. Miskovsky and G. Bánó, Bouncing dynamics of inertial self-propelled particles reveals directional asymmetry, Phys. Rev. E 107, 024603 (2023)
  46. V. Pevná, Ľ. Zauška, M. Almáši, A. Hovan, G. Bánó, M. Máčajová, B. Bilčík, V. Zeleňák, V. Huntošová, Redistribution of hydrophobic hypericin from nanoporous particles of SBA-15 silica in vitro, in cells and in vivo, Int. J. Pharm. 643, 123288 (2023)

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