[96] V. Krystl, J. Hradil, B. Bernauer, and M. Kočiřík, Heterogeneous Membranes Based on Zeolites for Separation of Small Molecules, React. & Funct. Polym., 48, 129-139, 2001.
[95] A. G. Strikovsky, D. Kasper, M. Grun, J. Hradil, B. S. Green, and G. Wulff, Catalytic Molecularly Imprinted Polymers Using Coventional Bulk Polymerization or Suspension Polymerization: Selective Hydrolysis of Diphenyl Carbonate and Diphenyl Carbamate, J. Am. Chem. Soc. 122, 6295-6296, 2000.
[94] M. Ousalem, X. X. Zhu, and J. Hradil, Evaluation of New Porous Polymer Resins as Column Packing Materials in Inverse Size Exclusion Chromatography, J. Chromatogr. 903, 13-19, 2000.
[93] M. Kočiřík, J. Brych, and J. Hradil, Carbonization of Bead-Shaped Polymers for Application in Adsorption and Membrane Composites, Carbon, 38, 1919-1928, 2000.
[92] J. Hradil, M. J. Bene, and Z. Plichta, Contribution on Interaction of Phenolic Compounds with Polymeric Adsorbents, React. & Funct. Polym., 44, 259-272, 2000.
[91] V. V. Azanova, V. V. Pidlisnyuk, and J. Hradil, Sorption of Phenol Derivatives on Macroporous 2,3-Epoxypropyl Methacrylate - N-Vinylpyrrolidone - Ethylene Dimethacrylate Copolymers (in Russian), Nauk. Zapiski, 18, 40-45, 2000.
[90] V. V. Azanova, V. V. Pidlisnyuk, and J. Hradil, Sorption of Phenol by 2,3-Epoxypropyl - Methacrylate -Vinylpyrrolidone Copolymers and their Derivatives (in Russian), Nauk. Zapiski, 18, 35-39, 2000.
[89] V. V. Podlesnyuk and J. Hradil, Sorption of Organic Vapors by Macroporous and Hypercrosslinked Polymeric Adsorbents, React. Funct. Polym., 42, 181-191, 1999.
[88] V. V. Pidlisnyuk, R. M. Marutovsky, and J. Hradil, Influence of Heat Transfer on the Kinetic Process During the Adsorption of Soluble Organic Substances on Porous Polymeric Adsorbents, Adsorption Sci. & Technol., 17,161-171, 1999.
[87] V. V. Azanova and J. Hradil, Sorption Properties of Macroporous and Hypercrosslinked Copolymers, React. Funct. Polym., 41, 163-175, 1999.
[86] O. V. Afanaseva, N. P. Platonova, A. V. Scharapov, and J. Hradil, Investigation of Methacrylate Aminoderivatives by Gas Chromatography (in Russian), Zh. Fiz. Khim., 73, 2048-2052, 1999.
[85] J. Hradil and E. Králová, Styrene-Divinylbenzene Copolymers Post-Crosslinked with Tetrachloromethane, Polymer, 39, 6041-6048, 1998.
[84] V. V. Podlesnyuk, J. Hradil, R. M. Marutovskii, N. A. Klimenko, and L. E. Fridman, Sorption of Organic Compounds from Aqueous Solutions by Glycidyl Methacrylate-Styrene-Ethylene Dimethacrylate Terpolymers, React. Funct. Polym., 33, 275-288, 1997.
[83] N. P. Platonova, O. G. Tataurova, and J. Hradil, Temperature Induced Transitions in the System Sorbate-Methacrylic Polymer (in Russian), Kolloidn. Zh., 59, 68-78, 1997.
[82] J. Hradil, Mechanism of Interaction of Organic Compounds with Polymeric Adsorbents, In: Physical Adsorption: Experiment, Theory and Applications, Eds. J. Fraissard and C. W. Conner. Dordrecht: Kluwer Academic Publishers, 1997, pp. 591-598.
[81] J. Hradil, E. Králová, and M. J. B. Bene, Methacrylate Anion-Exchangers with Enhanced Affinity for Nitrates, React. Funct. Polym., 33, 263-273, 1997.
[80] N. P. Platonova, O. G. Tataurova, J. Hradil, and F. vec, Gas Chromatographic Properties of Methacrylate Terpolymers (in Russian), Zh. Fiz. Khim., 70, 1688-1691, 1996.
[79] J. Hradil, Polymer Sorbents (in Czech), in: Separation and Analytical Methods in Environmental Protection, Ed. J. Kahovec. Inst. Macromol. Chem., Prague, 1996, pp. 36-54.
[78] D. Horák, J. Hradil, and M. J. Bene. Packings for Size Exclusion Chromatography: Preparation and Some Properties, In: Strategies in Size Exclusion Chromatography, Eds. M. Potschka and P. L. Dubin. Washington D.C., ACS, 1996, pp. 190-210.
[77] N. P. Platonova, O. G. Tataurova, R. S. Vartapatyan, A. M. Voloshchuk, and J. Hradil, Adsorption of Water Vapor on Modified Methacrylate Polymeric Sorbents (in Russian), Izv. Akad. Nauk, 44, 2068-2072, 1995.
[76] A. Trochimczuk, J. Hradil, B. N. Kolarz, and F. vec, The Amine Modified Acrylic Copolymers as Catalysts in the Reaction of Octylbromide with Sodium Cyanide, Polym. Bull., 33, 51-57, 1994.
[75] N. P. Platonova, O. G. Tataurova, R. A. Bulgakova, J. Hradil, and F. Shvets, Gas Chromatographic Properties of Phenyl-Containing Methacrylate Polymers (in Russian), Zh. Fiz. Khim., 67, 1480-1482, 1993.
[74] J. Hradil, V. V. Azanova, M. Ilavský, and F. vec, Macroporous Membranes 4. Synthesis and Properties of Poly[(2,3-Epoxypropyl Methacrylate)-co-(N-Vinyl-2- Pyrrolidone)-co-(Ethylene Dimethacrylate)] Membranes, Angew. Makromol. Chem., 205, 141-149, 1993.
[73] L.E. Fridman, V.V. Podlesnyuk, E.A. Fesenko, and J. Hradil, Estimation of Degree of Hydrophobicity of Metacrylic Polymeric Sorbents in Adsorption from Aqueous Solutions (in Russian), Khim. Tekhnol. Vody, 14, 810-812 (1992).
[72] N. P. Platonova, N. P. Ugolov, J. Hradil, and F. vec, Gas Chromatography on Methacrylate Copolymers Modified by Cobalt Cations (in Russian), Zh. Fiz. Khim. 66, 1043-1048, 1992.
[71] J. Hradil, F. vec, E. Votavová, M. Bleha, Z. Pelzbauer, and J. Brych, Rearrangement of the Porous Structure of Macroporous Copolymers, Polymer, 33, 1731-1738, 1992.
[70] V. V. Podlesnyuk, N. A. Klimenko, L. E. Friedman, J. Hradil, and F. vec, Regularities of the Intradiffusion Kinetics of Adsorption of Nonionic Surfactants from the Aqueous Solutions on Porous Methacrylate Sorbents (in Russian), Kolloidn. Zh., 53, 1075-1078, 1991.
[69] V. V. Podlesnyuk, N. A. Klimenko, L. E. Fridman, J. Hradil, and F. vec, Internal Diffusion Kinetics of Nonionogenic SAS Adsorption from Aqueous-Solutions on Porous Methacrylate Sorbents, Colloid J. Russ. Acad. Sci-Engl., 53, 894-896, 1991.
[68] V. V. Podlesnyuk, J. Hradil, N. A. Klimenko, F. vec, and L. E. Fridman, Equilibrium Adsorption of some Benzene Derivatives and Nonionic Surface Active Compounds by Glycidyl Methacrylate Adsorbents of Different Types (in Russian), Khim. Teknol. Vody, 13, 415, 1991.
[67] V. V. Nakhapetyan, L. I. Motina, F. vec, J. Hradil, I. V. Korobkov, M. P. Khusainov, and V. P. Kuznetsov, Immunoadsorbents Based on Bead Cellulose for Isolation and Purification of Biopolymers (in Russian), Zh. Fiz. Khim., 65, 2713-2716, 1991.
[66] O. G. Larionov, V. V. Petrenko, N. P. Platonova, J. Hradil, F. vec, and V. Marouek, Investigation of Chemical Nature of Surface of Polymeric Adsorbents by Method of Inversion Gas Chromatography (in Russian), Zh. Fiz. Khim., 65, 1671-1674, 1991.
[65] N. A. Klimenko, V. V. Podlesnyuk, J. Hradil, and F. vec, Adsorption of Surface Active Compounds from Water Solutions by Porous Methacrylate Adsorbents (in Russian), Kolloidn. Zh., 53, 748, 1991.
[64] J. Hradil, F. vec, L. D. Belyakova, A. A. Aratskova, V. I. Orlov, and Y. I. Yashin, Porous Methacrylate Polymers with Aminogroups as Ion Exchangers for Ion Chromatography (in Russian), Zh. Fiz. Khim., 65, 2709-2712, 1991.
[63] J. Hradil, V. I. Orlov, A. A. Aratskova, V. Y. Semeniy, and Y. I. Yashin, Ion-Pair Chromatography of Cations on Methacrylate Copolymers (in Russian), Zh. Fiz. Khim., 65, 2823-2828, 1991.
[62] J. Hradil, F. vec, V. V. Podlesnyuk, R. M. Marutovskii, and N. A. Klimenko, Sorption and Desorption of Organic Compounds by Synthetic Polymeric Sorbents, Ind. Eng. Chem. Res. Dev., 30, 1926-1931, 1991.
[61] J. Hradil, M. Jelínková, M. Ilavský, and F. vec, Macroporous Membranes 3. Properties of Macroporous Membranes Synthesized from Glycidyl Methacrylate, Ethylene Dimethacrylate and Alkyl or Hydroxyalkyl Methacrylate, Angew. Makromol. Chem., 185/186, 275-282, 1991.
[60] L. A. Dernovaya, Y. A. Eltekov, J. Hradil, and F. vec, Estimation of Cellulose Polarity by Gas-Chromatography, J. Chromatogr., 552, 365-370, 1991.
[59] L. D. Belyakova, N. P. Platonova, J. Hradil, and F. vec, Gas Chromatographic Investigation of Retention of Organic Compounds by Methacrylate Polymers (in Russian), Zh. Fiz. Khim., 65, 2274-2279, 1991.
[58] V. V. Azanova, J. Hradil, G. Sytov, E. P. Panarin, and F. vec, Macroporous Membranes 2. 2,3-Epoxypropyl Methacrylate - Styrene - Ethylene Dimethacrylate Macroporous Membranes Bearing Strong Acid Groups, React. Polym., 161, 1-8, 1991.
[57] J. Hradil, F. vec, A. A. Aratskova, L. D. Belyakova, and V. I. Orlov, Separation of Cations Using Methacrylate-Based Low-Capacity Cation Exchangers, J. Chromatogr., 509, 369-376, 1990.
[56] J. Hradil and F. vec, Reactive Polymers 61. Synthesis of Strongly Basic Anion Exchange Methacrylate Resins, React. Polym., 13, 43-53, 1990.
[55] L. I. Dernovaya, J. A. Eltekov, J. Hradil, and F. vec, Adsorption of Organic Compounds on Surface of Spheric Cellulose (in Russian), Zh. Fiz. Khim., 64, 994, 1990.
[54] V. V. Azanova, J. Hradil, F. vec, and Z. Pelzbauer, Reactive Polymers 60. Glycidyl Methacrylate-Styrene-Ethylene Dimethacrylate Terpolymers Modified with Strong-Acid Groups, React. Polym., 12, 247-260, 1990.
[53] J. Hradil, C. Koňák, and F. vec, Reactive Polymers 59. An Investigation of Labelled Glycidyl Methacrylate -Ethylene Dimethacrylate Copolymers by a Fluorescence Technique, React. Polym., 11, 147-153, 1989.
[52] J. Hradil, F. vec, N. D. Kakriashvili, M. N. Gogitidze, and T. D. Andronikashvili, Solute Solvent Interaction of Macroporous Methacrylate Ion Exchangers in Salt Form Studied by Gas Chromatography, J. Chromatogr., 462, 6,1989.
[51] J. Hradil, F. vec, N. P. Platonova, L. D. Belyakova, and V. Marouek, Gas Chromatographic and Sorption Properties of Macroporous Methacrylate Copolymers, J. Chromatogr., 469, 143 1989.
[50] J. Hradil, F. vec, A. A. Aratskova, L. D. Belyakova, V. I. Orlov, and Y. I. Yashin, Ion Chromatography on Methacrylate Ion Exchangers, J. Chromatogr., 475, 209-217, 1989.
[49] L. D. Belyakova, N. P. Platonova, T. I. Shevchenko, F. vec, and J. Hradil, Surface Chemistry of Methacrylate Polymeric Sorbents: Chromatography and Adsorption, Pure Appl. Chem., 61, 1889-1896, 1989.
[48] A. Trochimczuk, J. Hradil, B. N. Kolarz, and F. vec, The Amine Modified Acrylonitrile - Divinylbenzene Copolymers in the Phase Transfer Catalysis, Polym. Bull., 20, 149-152, 1988.
[47] J. Hradil, H. Pivcová, J. Spěváček, and F. vec, Characterization of Methacrylate Copolymers with Strong-Acid or Base Groups Using 1H NMR Spectra, React. Polym., 9, 51-58, 1988.
[46] J. Hradil, F. vec, Č. Koňák, and K. Jurek, Phase - Transfer Catalysis IV. Localization of Reaction Sites in Supported Catalysis, React. Polym., 9, 81-89, 1988.
[45] A. A. Aratskova, L. D. Belyakova, Y. I. Yashin, J. Hradil, and F. vec, Porous Methacrylate Copolymers - New Adsorbents for HPLC (in Russian), Kolloidn. Zh., 50, 1176-1180, 1988.
[44] F. vec, J. Kahovec, and J. Hradil, Polymeric Phase - Transfer Catalysts (in Czech), Chem. Listy, 81, 183-204, 1987.
[43] K. Jeřábek, K. Setinek, J. Hradil, and F. vec, An Investigation of the Morphology of Glycidyl Methacrylate Copolymers using Inverse Size-Exclusion Chromatography, React. Polym., 5, 151-156, 1987.
[42] J. Hradil, F. vec, and J. M. J. Fréchet, Mechanism of Phase - Transfer Catalysis Using Glycidyl Methacrylate - Ethylene Dimethacrylate Copolymers Modified with Tributyl Ammonium Groups in Nucleophilic Displacement Reaction, Polymer, 28, 1593-1598, 1987.
[41] J. Hradil, Investigation of Polymers by Methods of Inversion Gas Chromatography (in Czech), Chem. Listy, 80, 506-519,1986.
[40] J. Hradil, M. Wojaczynska, F. vec, and B. N. Kolarz, Sorption of Phenols on Macroporous Methacrylate Copolymers Containing Ethylenediamine Groups, React. Polym., 4, 277-283, 1986.
[39] J. Hradil and F. vec, Reactive Polymers 51. The Temperature Behaviour of Macroporous Methacrylate Sorbents, Angew. Makromol. Chem., 135, 85, 1985.
[38] J. Hradil, F. vec, N. M. Gogitidze, and T. T. Andronikashvili, Gas Chromatographic Solute-Sorbent Interactions on Macroporous Methacrylate Ion Exchangers, J. Chromatogr., 324, 277-283, 1985.
[37] J. Hradil and F. vec, Reactive Polymers 48. Synthesis of Polymeric Sorbents with Carboxylic Groups by Chemical Reactions of the Copolymer Dihydroxypropyl Methacrylate - Ethylene Dimethacrylate, React. Polym., 3, 91-99, 1985.
[36] J. Hradil and F. vec, Reactive Polymers 49. Changes in the Porous Structure of Macroporous Copolymers Due to Succesive Effects of Solvents and Temperature, Angew. Makromol. Chem., 130, 81-91, 1985.
[35] J. Hradil and F. vec, Reactive Polymers 54. Synthesis of Methacrylate Copolymers with Tributylammonium Groups, Polym. Bull., 14, 265-270, 1985.
[34] J. Hradil and F. vec, Investigation of the Surface Structure of Polymers by Chromatographic Methods VI. Determination of Glass Transition Temperature of Macroporus Copolymers by Gas Chromatography, J. Chromatogr., 287, 67-76, 1984.
[33] J. Hradil and F. vec, Phase Transfer Catalysis 2. The Reaction between Phenol and n-Butyl Bromide Catalyzed by Polyethyleneglycols Fixed on Macroporous Glycidyl Methacrylate Copolymers, Polym. Bull., 11, 159-164, 1984.
[32] T. T. Andronikashvili, N. M. Gogitidze, J. Hradil, and F. vec, Solute - Sorbent Interactions of Macroporous Methacrylate Ion Exchangers and Application of these Sorbents in Gas - Solid Chromatography, J. Chromatogr., 291, 103-109, 1984.
[31] T. G. Andronikashvili, N. M. Gogitidze, J. Hradil, and F. vec, Peculliarities of Chromatographic Elution of C1-C5 Alcohols on Cation Exchange Polymers (in Russian), Izv. Akad. Nauk GrSSR, Ser. Khim., 10, 67-69, 1984.
[30] K. Setínek, J. Blaek, J. Hradil, F. vec, and J. Kálal, Reactive Polymers XLII. Catalytic Activity of Macroporous Methacrylate Copolymers Containing Sulphopropyl Groups in Reesterification of Ethyl Acetate by 1-Propanol, J. Catal., 80, 123-129, 1983.
[29] J. Hradil and F. vec, Phase Transfer Catalysis 1. Contribution to the Investigation of the Reaction between Phenol and n-Butyl Bromide, Polym. Bull., 10, 14-20, 1983.
[28] J. Hradil, D. Horák, Z. Pelzbauer, E. Votavová, F. vec, and J. Kálal, Investigation of the Surface Structure of Polymers by Chromatographic Methods V. Use of Gel Permeation Chromatography in the Study of the Porous Structure of Copolymers of Glycidyl Methacrylate, J. Chromatogr., 259, 269-282, 1983.
[27] J. Hradil, F. vec, J. Kálal, L. D. Belyakova, A. V. Kiselev, N. P. Platonova, and T. I. Shevchenko, Reactive Polymers 44. Sorption of Gases on Macroporous 2,3-Epoxypropyl Methacrylate Copolymers Modified with Amino Groups of Various Structure, React. Polym., 1, 59-65, 1982.
[26] J. Hradil and F. vec, Reactive Polymers 43. Reaction of Hydrolyzed Copoly(Glycidyl Methacrylate-Ethylene Dimethacrylate) with Propane Sultone in the Presence of Phase Transfer Catalyst, Polym. Bull., 6, 565-570, 1982.
[25] V. R. Alishoev, V. G. Berezkin, Y. N. Viktorova, J. Hradil, and J. tamberg, Determination of Aliphatic Hydrocarbons in Hydrocarbon Mixtures, J. Chromatogr., 246, 141-144, 1982.
[24] J. Hradil and F. vec, Inversion of Sucrose with ß-D-Fructofuronosidase Immobilized on Bead DEAHP-Cellulose: Batch Process, Enzyme Microb. Technol., 3, 69-84, 1981.
[23] J. Hradil and F. vec, Inversion of Sucrose in a Continuous Process with ß-D-Fructofuranosidase Immobilized on Bead DEAHP-Cellulose, Enzyme Microb. Technol., 3, 336-340, 1981.
[22] L. D. Belyakova, A. V. Kiselev, N. P. Platonova, J. Kálal, F. vec, and J. Hradil, Reactive Polymers 38. Sorption of Acid Gases on Macroporous 2,3-Epoxypropyl Methacrylate Copolymers Modified by a Reaction with Amines, Angew. Makromol. Chem., 96, 69-84, 1981.
[21] F. vec, J. Labský, L. Lanyová, J. Hradil, S. Pokorný, and J. Kálal, Reactive Polymers XXX. The Synthesis of 2-Hydroxypropyl Dimethacrylate in a Mixture with Glycidylmethacrylate and their Copolymerization to Macroporous Product, Angew. Makromol. Chem., 90, 47-55, 1980.
[20] C. M. A. Riberio, J. Hradil, F. vec, and J. Kálal, Reactive Polymers XXVIII. Modification of Hydrolyzed Glycidylmethacrylate-Ethylene Dimethacrylate Copolymer by Propane Sultone, Angew. Makromol. Chem., 87, 119-126, 1980.
[19] J. Hradil and J. Luká, Effect of the Internal Structure of Macroporous Polymers on their Chromatographic Properties, J. Chromatogr., 172, 85-92, 1979.
[18] J. Hradil, Materials for Chromatography: DEAE- and CM-Cellulose in Bead Form (in Czech), Imunologický Zpravodaj, 10, 31-34, 1979.
[17] E. ůrková, J. Hradil, J. Mrázek, E. Votavová, and J. Kálal, Reactive Polymers XII. Macroporous Copolymers Containing Aldehyde Groups, Angew. Makromol. Chem., 66, 75-93, 1978.
[16] J. Hradil, Contribution to Study of Submicroscopic Structure of Macroporous Copolymers. Calculation of Size of Submicroscopic Particles and Pores from Values of Specific Pore Volumes and Specific Surface Area, Angew. Makromol. Chem., 66, 51-66, 1978.
[15] J. Hradil, Investigation of the Structure of Polymers by Chromatographic Methods II. Macroporous Poly(2-Hydroxyethyl Methacrylate-co-Ethylene Dimethacrylates), J. Chromatogr., 144, 63-68, 1977.
[14] J. Peka, J. tamberg, J. Hradil, and M. Ilavský, Cellulose in Bead Form. Properties Related to Chromatographic Uses, J. Chromatogr., 125, 455-469, 1976.
[13] J. Peka, J. tamberg, and J. Hradil, Chemical Transformation of Polymers XIX. Ion Exchange Derivatives of Bead Cellulose, Angew. Makromol. Chem., 66, 73-93, 1976.
[12] A. E. Nesterov, J. A. Lipatov, K. Duek, Z. Pelzbauer, J. Hradil, J. E. Lipatova, and M. Houska, Formation of Polyuretane Networks Based on Poly(Propylene Glycol) and 4,4'-Diphenylmethane Diisocyanate, Angew. Makromol. Chem., 53, 39-52, 1976.
[11] J. vec, J. Hradil, J. Kálal, and J. Čoupek, Reactive Polymers I. Macroporous Methacrylate Copolymers Containing Epoxy Groups, Angew. Makromol. Chem., 48, 135-143, 1975.
[10] J. Luká, J. Hradil, J. Kálal, and J. Čoupek, Polar Macroporous Sorbents for Gas Chromatography, J. Chromatogr., 48, 335-344, 1975.
[9] J. Hradil, A. Kaganov, J. tamberg, and P. Synek, Investigation of the Surface Structure of Polymers by Chromatographic Methods I. Hydrophilized Polyethylene Capillaries for Medical Applications, J. Polym. Sci. C, Symposia, 47, 123-129, 1974.
[8] J. Baldrián, J. Hradil, and J. tamberg, Chemical Transformations of Polymers XIII. Effect of Supermolecular Structure on the Transformation of Polyethylene with Chlorosulphonic Acid, J. Polym. Sci. C, Symposia, 47, 241-249, 1974.
[7] J. Hradil, M. Křiváková, P. Starý, and J. Čoupek, Chromatograhic Properties of Macroporous Copolymers of 2-Hydroxyethyl Methacrylate and Ethylene Dimethacrylate, J. Chromatogr., 79, 99-105, 1973.
[6] J. Hradil and J. tamberg, Chemical Transformations of Polymers XII. Reaction of Polyethylene with Chlorosulphonic Acid, Collect. Czech. Chem. Commun., 37, 3869-3877, 1972.
[5] J. Hradil and J. Málek, Solubilities of Some Benzenecarboxylic Acids and their Glycol Esters in Water and Organic Solvents (in Czech), Chemický Průmysl, 3, 210-214, 1970.
[4] J. Hradil and J. Málek, Reesterification of Benzenecarboxylic Acid by Ethylene Glycol II. Kinetics of Reesterification of Benzenecarboxylic Acid in Presence of Zinc Catalyst, Collect. Czech. Chem. Commun., 34, 3959-3966, 1969.
[3] J. Hradil and V. Chvalovský, The Effect of Solvents on the Selectivity of Electrophilic Radical Halogenation of Substituted Toluenes, Collect. Czech. Chem. Commun., 33, 2029-2040, 1968.
[2] J. Hradil and V. Chvalovský, Organosilicon Compounds IL. Radical Halogenation of Toluene Silyl Derivatives, Collect. Czech. Chem. Commun., 32, 171-182, 1967.
[1] J. Hradil and Z. Binder, Using an Analog Computer for Reaction Kinetics Evaluation (in Czech), Bulletin VB, 103-110, 1967.
Actualized: Winter 2001