33. H. Měšt’ánková, G. Mailhot, J.-F. Pilichowski, J. Krýsa, J.Jirkovský and M. Bolte, Mineralisation of Monuron photoinduced by Fe(III) in aqueous solution, Chemosphere (2004) 57, 1307-1315

32. J. Krýsa, M. Keppert, J. Jirkovský, V. Štengl, J. Šubrt, The effect of thermal treatment on the properties of TiO2 photocatalyst, Mat. Chem. Phys. (2004) 86, 333-339

31. H. Měšťánková, G. Mailhot, J. Krýsa, J. Jirkovský and M. Bolte, Homogeneous (Fe(III)) and heterogeneous (TiO2) photocatalysts for pollutants removal from the aquatic compartment: comparison and complementarity, Water Science and Technology (2004) 49, 165-170

30. M. Keppert, J. Krýsa and A. A. Wragg, Free Convective Mass Transfer at Isosceles Triangular Surfaces of Varying Inclination, Collect. Czech Chem. Commun. (2003) 68, 2080-2092

29. G. Waldner, J. Krýsa, J. Jirkovský, G. Grabner, Photoelectrochemical properties of particulate and sol-gel layers, Int.  J. Photoenergy (2003) 5, 115-122

28. H. Krýsová , J. Jirkovský, J. Krýsa, G. Mailhot and M. Bolte, Comparative kinetic study of atrazine photodegradation in aqueous Fe(ClO4)3 solutions and TiO2 suspensions, Appl. Catalysis B: Environ. (2003) 40, 1-12

27. J. Krýsa, J. Jirkovský, Electrochemically assisted photocatalytic degradation of oxalic acid on immobilised TiO2 layer in a batch mode plate film photoreactor, J. Appl. Electrochem. (2002) 32, 591-596

26. J. Krýsa, D. Houf, C. F. Oduoza and A. A. Wragg, Free convective mass transfer at up-pointing truncated cones, Chem. Eng. Journal (2002) 85, 147-151

25. J. Krýsa, A. A. Wragg, M. A-. Patrick, Free convective mass transfer at down-pointing truncated cones, Int. J. Heat Fluid Flow (2002) 23, 96-104

24. K. Macounová, J. Urban, H. Krýsová, J. Krýsa, J. Jirkovský, J. Ludvík, Photodegradation of metamitron [4-amino-6-phenyl-3-methyl-1,2,4-triazin-5(4H)-one] on TiO2J. Photochem. Photobiol. A: Chem. (2001) 140, 93-98

23. J. Krýsa, EIS study of Zr-alloys exposed in high pressure water with different concentration of Li+ ions at 360 °C, Acta Chimica Hungarica – Models in Chemistry (2000) 137, 249

22. J. Krýsa, K. Bouzek, Ch. Stollberg, Photocatalytic degradation rate of oxalic acid on the semiconductive layer of n-TiO2 particles in the batch mode plate reactor. Part III: Rate determining steps, non-stationary diffusion model for oxygen transport, J. Appl. Electrochem. (2000) 30, 1033-1040

21. J. Krýsa, A. A. Wragg, D. M. Thomas and M. A. Patrick, Free convective mass transfer in open upward-facing cylindrical cavities, Chemical Engineering Journal (2000) 79, 179

20. J. Krýsa, J. Maixner, P. Matějka and V. Vrtílková, Structure and composition of zirconium oxide films formed in high pressure water with different Li+ concentration at 360 C, Materials Chemistry and Physics (2000) 63(1), 1-8

19. J. Krýsa, L. Vodehnal, J. Jirkovský, Photocatalytic Degradation Rate of Oxalic Acid on the Semiconductive Layer of n-TiO2 Particles in a Batch Mode Plate Reactor. Part II: The Light Intensity Limit, J. Appl. Electrochem. (1999) 29, 429-435

18. J. Krýsa, F. Iino and A. A.  Wragg, Free convective mass transfer at up-pointing pyramids of constant inclined length, Int. J. Heat Mass Transfer (1999) 42, 3545-3548

17. L. Belháčová, J. Krýsa, J. Geryk and J. Jirkovský, Inactivation of microorganisms in a flow-through photoreactor with an immobilized TiO2 layer, J. Chem. Technol. and Biotechnol. (1999) 74, 149-154



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