59. H. Měšťánková, G. Mailhot, J. Jirkovský, J. Krýsa, M. Bolte, Effect of iron speciation on the photodegradation of Monuron in combined photocatalytic systems with immobilized or suspended TiO2, Environ Chem Lett (2009) 7, 127-132

58. J. Zita, J. Krýsa, A. Mills: Correlation of oxidative and reductive dye bleaching on TiO2 photocatalyst films, Journal of Photochemistry and Photobiology A: Chemistry (2009) 203, 119-124

57. Š. Kment, P. Klusoň, V. Stranak, P. Virostko, J. Krýsa, M. Cada, J. Prachařová, M. Kohout, M. Morozová, P. Adámek, Z. Hubička, Photo-induced electrochemical functionality of the TiO2 nanoscale films, Electrochimica Acta (2009) 54, 3352-3359

56. Š. Kment, P. Klusoň, H. Žabová, A. Churpita, M. Chichina, M. Cada, I. Gregora, J. Krýsa, Z. Hubička, Atmospheric pressure barrier torch discharge and its optimization for flexible deposition of TiO2 thin coatings on various surfaces, Surface & Coatings Technology (2009) 204, 667-675

55. M. Morozová, P. Klusoň, J. Krýsa, M. Zlámal, O. Solcova, Š. Kment, T. Steck, Role of the template molecular structure on the photo-electrochemical functionality of the sol-gel titania thin films, Journal of sol-gel science and technology (2009) 52, 398-407

54. M. Zlámal, J. Krýsa, J. Jirkovský, Photocatalytic degradation of Acid Orange 7 on TiO2 films prepared from various powder catalysts, Catalysis Letters (2009) 133, 160-166

53. P. Kluson, M. Drobek, A. Kalaji, S. Zarubova, J. Krysa, J. Rakusan, Singlet oxygen photogeneration efficiencies of a series of phthalocyanines in well-defined spectral regions, Journal of Photochemistry and Photobiology A: Chemistry (2008) 199, 267-273

52. P. Kluson, M. Drobek, S. Krejcikova, J. Krysa, A. Kalaji, T. Cajthaml, J. Rakusan, Molecular structure effects in photodegradation of phenol and its chlorinated derivatives with phthalocyanines, Applied Catalysis B: Environmental (2008) 80, 321-326

51. S. Kment, P. Kluson, H. Bartkova, J. Krysa, O. Churpita, M. Cada, P. Virostko, M. Kohout, Z. Hubicka, Advanced methods for titanium (IV) oxide thin functional coatings, Surface and Coatings Technology (2008) 202, 2379-2383

50. O. Bajt, J. Zita, P. Novotná, J. Krýsa and J. Jirkovský, Photocatalytic degradation of dibutyl phthalate. Effect of catalyst immobilisation, Journal of Solar Energy Engineering (2008) 130, 28-33

49. A. A. Wragg, N. P. Simpson, M. A. Patrick, J. Kalcikova, J. Krysa, Electrochemical mass transfer modelling of a complex twophase heat transfer problem: case of a prototype slagging gasifier, Russian Journal of Electrochemistry (2008) 44, 413-423

48. P. Novotná, J. Zita, J. Krýsa, V. Kalousek, J. Rathouský, Two-component transparent TiO2/SiO2 and TiO2/PDMS films as efficient photocatalysts for environmental cleaning, Appl. Catal. B: Environ. (2008) 79, 179-185

47. M. Zlámal, J. M. Macak, P. Schmuki, J. Krýsa, Electrochemically Assisted Photocatalysis on Self-Organized TiO2 nanotubesElectrochemistry Communications (2007) 9, 2822-2826

46. J. Krýsa, M. Zlámal and G. Waldner, Effect of oxidisable substrates on the photoelectrocatalytic properties of thermally grown and particulate TiO2 layers, J. Appl. Electrochem. (2007) 37, 1313-1319

45. H. Bartkova, P. Kluson, L. Bartek, M. Drobek, T. Cajthaml, J. Krysa, Photoelectrochemical and photocatalytic properties of titanium (IV) oxide nanoparticulate layers, Thin Solid Films (2007) 515, 8455-8460

44. A. A. Wragg and J. Krýsa, Modelling natural convection at complex surfaces and solid bodies using electrochemical techniques and flow visualisation, J. Appl. Electrochem. (2007) 37, 33-39

43. P. Kluson, M. Drobek, T. Strasak, J. Krysa, M. Karaskova, J. Rakusan, Sulphonated phthalocyanines as effective oxidation photocatalysts for visible and UV light regions, Journal of Molecular Catalysis A: Chemical (2007) 272, 213-219

42. J. Macak, M. Zlamal, J. Krysa, P. Schmuki, Self-Organized TiO2 Nanotube Layers as Highly Efficient Photocatalysts, SMALL (2007) 3, 300-304

41. S. Pekárek, M. Pospíšil, J. Krýsa, Non-Thermal Plasma and TiO2-Assisted n-Heptane Decomposition, Plasma Process Polym. (2006) 3, 308-315

40. J. Krýsa, G. Waldner, H. Měšťánková, J. Jirkovský, G. Grabner, Photocatalytic degradation of model organic pollutants on an immobilized particulate TiO2 layer. Roles of adsorption processes and mechanistic complexity, Applied Catalysis, B, Environ. (2006) 64, 290-301

39. H. Krýsová, J. Krýsa, J. Hubáčková, J. Tříska, J. Jirkovský, Odstraňování herbicidu atrazinu z povrchové vody, Chemické Listy (2005) 99, 179-184

38. G. Waldner, J. Krýsa, Photocurrents and degradation rates on particulate TiO2 layer. Effect of layer thickness, concentration of oxidizable substance and illumination direction, Electrochimica Acta (2005) 50, 4498-4504

37. J. Krýsa, M. Keppert, G. Waldner, J. Jirkovský, Immobilized particulate TiO2 photocatalysts for degradation of organic pollutants. Effect of layer thickness, Electrochimica Acta (2005) 50, 5255-5260

36. J. Krýsa, W. Reuter, A. A. Wragg, Free convective mass transfer at circular thin disk electrodes with varying inclination, Int. J. Heat Mass Transfer (2005) 48, 2323-2337

35. H. Měšťánková, J. Krýsa, J. Jirkovský, G. Mailhot and M. Bolte, The influence of Fe(III) speciation on supported TiO2 efficiency: example of monuron photocatalytic degradation, Applied Catalysis, B, Environ. (2005) 58, 185-191

34. H. Měšťánková, J. Krýsa, J. Jirkovský, G. Mailhot and M. Bolte, Mechanistic approach of the combined (iron–TiO2) photocatalytic system for the degradation of pollutants in aqueous solution: an attempt of rationalisation, Applied Catalysis B: Environmental (2005) 57, 257-265



Prof. Josef Krýsa, Ph.D
University of Chemistry and Technology, Prague
Department of Inorganic Technology
Technická 5
166 28 Praha 6
+420 220 444 112 josef.krysa@vscht.cz