prof. Ing. Josef Šedlbauer, Ph.D.

2010
Cibulka I., Hnědkovský L., Šedlbauer J.: Partial molar volumes of organic solutes in water. XX. Glycine(aq) and L-alanine(aq) at temperatures (298 to 443) K and at pressures up to 30 MPa, J.Chem.Thermodyn., 42, 198-207 (2010).

Trevani L., Ehlerová J., Šedlbauer J., Tremaine P.R.: Complexation in the Cu(II)–LiCl–H2O system at temperatures to 423 K by UV-Visible spectroscopy, Int. J. Hydrogen Energy, 35, 4893-4900 (2010).

2009
Janoš P., Hůla V., Bradnová P., Pilařová V., Šedlbauer J.: Reduction and immobilization of hexavalent chromium with coal- and humate-based sorbents, Chemosphere, 75, 732-738 (2009).

2008
Ehlerová J., Trevani L., Šedlbauer J., Tremaine P.R.: Spectrophotometric determination of the ionization constants of aqueous nitrophenols at temperatures up to 225°C, J. Sol. Chem., 37, 857-874 (2008).

Šedlbauer J.: Modeling approaches to hydration properties of aqueous nonelectrolytes at elevated temperatures and pressures, Coll. Czech. Chem. Commun., 73, 322-343 (2008).

Šedlbauer, J.; Jakubů, P.: Application of group contribution approach to polar and polyfunctional aqueous solutes, Industrial&Engineering Chem. Res., 47, 5048-5062 (2008).

Majer V., Šedlbauer J., Bergin G.: Henry’s law constant and related coefficients for aqueous hydrocarbons, CO₂ and H₂S over a wide range of temperature and pressure, Fluid Phase Equilib., 272, 65-74 (2008).

2007
Slavík M., Šedlbauer J., Ballerat-Busserolles K., Majer V.: Heat capacities of aqueous solutions of acetone; 2,5-hexanedione; diethyl ether; 1,2-dimethoxyethane; benzyl alcohol; and cyclohexanol at temperatures to 523 K, J. Sol. Chem., 36, 107-134 (2007).

Ballerat-Busserolles K., Šedlbauer J., Majer V.: Standard Thermodynamic properties of H3PO4(aq) over wide range of temperatures and pressures, J. Phys. Chem. B, 111, 181-190 (2007).

Čenský M., Šedlbauer J., Majer V., Růžička V.: Standard partial molal properties of aqueous alkylphenols and alkylanilines over a wide range of temperatures and pressures, Geochim. Cosmochim. Acta, 71, 580-603 (2007). 

1994 – 2006
Šedlbauer J., Wood R.H.: Thermodynamic properties of dilute NaCl(aq) solutions near the critical point of water, J. Phys. Chem. B, 108, 11838-11849 (2004).

Šedlbauer J., Bergin G., Majer V.: Group contribution method for the Henry’s law constant of aqueous hydrocarbons, AIChE J., 48, 2936-2959 (2002).

Šedlbauer J., O`Connell J.P., Wood R.H.: A new equation of state for correlation and prediction of standard molal thermodynamic properties of aqueous species at high temperatures and pressures, Chem. Geology, 163, 43-63 (2000).

Yezdimer E.M., Šedlbauer J., Wood R.H.: Predictions of thermodynamic properties at infinite dilution of aqueous organic species at high temperatures via functional group additivity, Chem. Geology, 164, 259-280 (2000).

Majer V., Šedlbauer J., Hnědkovský L., Wood R.H.: Thermodynamics of aqueous acetic and propionic acids and acetate and propionate ions, Phys. Chem. Chem. Phys., 2, 2907-2917 (2000).

Šedlbauer J., Majer V.: Data and models for calculating the standard thermodynamic properties of aqueous nonelectrolyte solutes under hydrothermal conditions, Eur. J. Mineral., 12, 1109-1122 (2000).

Majer V., Degrange S., Šedlbauer J.: Temperature correlation of partial molar volumes of aqueous hydrocarbons at infinite dilution: test of equations, Fluid Phase Equilib., 158-160, 419-428 (1999).

Šedlbauer J., Yezdimer, E.M., Wood, R.H.: Partial molar volumes at infinite dilution in aqueous solutions of NaCl, LiCl, NaBr, and CsBr at temperatures from 550 K to 725 K, J. Chem. Thermodynamics, 30, 3-12 (1998).

Inglese A., Šedlbauer J., Yezdimer E.M., Wood R.H.: Apparent molar heat capacities of aqueous solutions of propylamine, 1,4-butanediamine, 1,6-hexanediamine, propylamine hydrochloride, propionamide, pyridine and sodium benzenesulfonate from 300 to 525 K and a pressure of 28 MPa, J. Chem. Thermodynamics, 29, 517-531 (1997).

Sharygin AV., Inglese A., Šedlbauer J., Wood R.H.: Apparent molar heat capacities of aqueous solutions of phosphoric acid and sulfur dioxide at temperatures from 303 to 623 K and a pressure of 28 MPa, J. Solution Chem., 26, 183-197 (1997).

Inglese A., Šedlbauer J., Wood R.H.: Apparent molar heat capacities of aqueous solutions of acetic, propanoic and succinic acids, sodium acetate and sodium propanoate from 300 to 525 K and a pressure of 28 MPa, J. Solution Chem., 25, 849-864 (1996).

Šedlbauer J., Labík S., Malijevský A., Smith W.R.: A new geometrically-based integral equation hierarchy for hard-sphere systems. 3. Thermodynamics and structure of hard-disk fluid, Mol.Phys., 85, 61-69 (1995).

Šedlbauer J., Labík S., Malijevský A.: „Monte Carlo and integral-equation studies of hard oblate-spherocylinder fluids“, Phys.Rev.E, 49, 3179-3183 (1994).

Smith W.R., Labík S., Malijevský A, Šedlbauer J.: A new geometrically-based integral equation hierarchy for hard-sphere systems. 2. Pair and triplet background correlation functions, Mol.Phys., 83, 1223-1231 (1994).

Monografie:

Majer V., Šedlbauer J., Wood R.H.: Calculation of standard thermodynamic properties of aqueous electrolytes and nonelectrolytes, in Steam, Water and Hydrothermal Solutions: The Physical Chemistry of Aqueous Systems at Elevated Temperatures and Pressures, Elsevier, 99-147 (2004).

Příspěvky na mezinárodních konferencích – plné texty:

Ehlerová J., Trevani L., Šedlbauer J., Ballerat-Busserolles K., Tremaine P.R.: UV-visible spectroscopic study on nitrophenols ionization reactions to 225 ^oC. 6 pages. Presented at 15-th International Conference on the Properties of Water and Steam, Berlin, Germany, 2008.

Šedlbauer J.: Group contribution method for aqueous nitro-, chloro-, and phenolate-substituted aromatics at elevated temperatures. 8 pages. Presented at 15-th International Conference on the Properties of Water and Steam, Berlin, Germany, 2008.

Šedlbauer J., Majer V.: Henry’s law constants of methane and acid gases at pressures above the saturation line of water, in Water, Steam and Aqueous Solutions for Electric Power. Nakahara M. et al.: Editors, Maruzen, Tokyo, 97-102 (2005). Presented at 14-th International Conference on the Properties of Water and Steam, Kyoto, Japan, 2004.

Šedlbauer J.: Thermodynamic model for associating electrolytes at high temperatures and pressures, in Water, Steam and Aqueous Solutions for Electric Power. Nakahara M. et al.: Editors, Maruzen, Tokyo, 80-85 (2005). Presented at 14-th International Conference on the Properties of Water and Steam, Kyoto, Japan, 2004.

Šedlbauer J., Bergin G., Majer V.: Software for calculating the Henry’s law constant of aqueous hydrocarbons at high temperatures, in Proccedings of the 19-th European Seminar on Applied Thermodynamics, p. 320-324, Santorini, Greece, 2002.

Šedlbauer J., Yezdimer E.M., Majer V., Wood R.H.: Correlation and prediction of standard thermodynamic properties of aqueous organic solutes in a wide range of conditions, in Steam, Water and Hydrothermal Systems. Tremaine P.R., Hill P.G., Irish D.E., Balakrishnan P.V.: Editors, NRC Research Press, Ottawa, 175-182 (2000). Presented at 13-th International Conference on the Properties of Water and Steam, Toronto, Canada, 1999.  

2010
Šedlbauer J.: “Recommended data on thermodynamic properties of hydration for selected organic solutes and gases”, 20th International Conference on Physical Organic Chemistry, Busan, Korea, 2010.

Šedlbauer J., Slavík M.: “Establishing recommended data on thermodynamic properties of hydration ”, 14-th International Symposium on Solubility Phenomena and Related Equilibrium Processes, Leoben, Austria, 2010.

2009
Šedlbauer J.: “Air-Water Partition of Organic Chemicals in a Wide Range of Environmental Conditions”, 12th EuCheMS International Conference on Chemistry and the Environment, Stockholm, Sweden, 2009.

2008
Šedlbauer J.: “Group contribution method for aqueous nitro-, chloro-, and phenolate-substituted aromatics at elevated temperatures”, 15-th International Conference on the Properties of Water and Steam, Berlin, Germany, 2008.

Ehlerová J., Trevani L., Šedlbauer J., Ballerat-Busserolles K., Tremaine P.R.: “UV-visible spectroscopic study on nitrophenols ionization reactions to 225 oC”, 15-th International Conference on the Properties of Water and Steam, Berlin, Germany, 2008.

Slavik M., Šedlbauer J.: “Enthalpy of ionization for isomeric chlorophenols in water”, 15-th International Conference on the Properties of Water and Steam, Berlin, Germany, 2008.

1994 – 2007
Šedlbauer J.: “Application of Group Additivity Approach to Polyfunctional Aqueous Organic Solutes”, 16-th Symposium on Thermophysical Properties, Boulder, Colorado, 2006.

Ballerat-Busserolles K., Šedlbauer J., Majer V.: “High Temperature Thermodynamics of Phosphoric Acid in Aqueous Solution”, 16-th Symposium on Thermophysical Properties, Boulder, Colorado, 2006.

Slavík M., Šedlbauer J.: “Extended Group Contribution Method for Standard Thermodynamic Properties of Aqueous Ketones, Ethers, and Esters”, 12-th International Symposium on Solubility Phenomena and Related Equilibrium Processes, Freiberg, Germany, 2006.

Šedlbauer J.: “Aqueous Organic Solutes in a Wide Range of Conditions: Predicting the Evolution of Hydrophobicity”, 60-th Calorimetry Conference, Gaithersburg, USA, 2005 (invited).

Majer V., Čenský M., Šedlbauer J., Růžička V.: “Hydration Properties of Hydroxy and Amino Derivatives of Monoaromatic Hydrocarbons”, 29-th International Conference on Solution Chemistry, Portoroz, Slovenia, 2005.

Slavík M., Šedlbauer J.: “Database on Hydration Properties for Selected Aqueous Organic Solutes”, 29-th International Conference on Solution Chemistry, Portoroz, Slovenia, 2005.

Slavík M., Šedlbauer J.: “Database on Hydration Properties for Selected Aqueous Organic Solutes”, 29-th International Conference on Solution Chemistry, Portoroz, Slovenia, 2005.

Šedlbauer J., Majer V.: “Henry’s Law Constants of Methane and Acid Gases at Pressures above the Saturation Line of Water”, 14-th International Conference on the Properties of Water and Steam, Kyoto, Japan, 2004.

Šedlbauer J.: “Thermodynamic Model for Associating Electrolytes at High Temperatures and Pressures”, 14-th International Conference on the Properties of Water and Steam, Kyoto, Japan, 2004.

Slavik M., Šedlbauer J., Ballerat-Busserolles K., Majer V.: “Apparent Molar Heat Capacities of Aqueous Solutions of Cyclohexanol, Benzyl Alcohol, Diethyl Ether, 1,2-dimethoxyethane, Acetone, and 2,5-hexanedione from 423 to 523 K and at Pressure 10 MPa”, 11-th International Symposium on Solubility Phenomena, Aveiro, Portugal, 2004.

Slavik M., Šedlbauer J.: “Standard Thermodynamic Properties of Organics Containing Oxygen Functional Groups – Correlation and Prediction”, 11-th International Symposium on Solubility Phenomena, Aveiro, Portugal, 2004.

Šedlbauer J., Wood R.H.: “Thermodynamic model of NaCl(aq) solutions in the critical region of water”, 28-th International Conference on Solution Chemistry, Debrecen, Hungary, 2003.

Majer V., Šedlbauer J., Degrange S., Hynek V.: “Hydration properties of dilute aqueous solutions of hydrocarbons up to the critical region of water: Experimental data and modeling”, 15-th Symposium on Thermophysical Properties, Boulder, CO, USA, 2003.

Majer V., Bergin G., Šedlbauer J., Costa-Gomes M.F.: “Solubility in water and phase partitioning of highly hydrophobic organic solutes at environmnental conditions”, 15-th Symposium on Thermophysical Properties, Boulder, CO, USA, 2003.

Majer V., Šedlbauer J., Roux-Desgranges G., Ballerat K.: “Thermodynamic modelling of biochemical reactions at extreme conditions; experiments and predictions for aqueous organic compounds”, 17th IUPAC Conference on Chemical Thermodynamics, Rostock, Germany, 2002.

Šedlbauer J., Bergin G., Majer V.: “Group contribution method for the Henry’s law constant KH(T, p) of aqueous hydrocarbons”, 16th European Conference on Thermophysical Properties, London, Great Britain, 2002.

Šedlbauer J.: “Semi-empirical models for standard state properties of aqueous non-electrolytes”, 6-th Liblice Conference on the Statistical Mechanics of Liquids, Spindleruv Mlyn, Czech Republic, 2002.

Šedlbauer J., Bergin G., Majer V.: “Software for calculating the Henry’s law constant of aqueous hydrocarbons at high temperatures”, 19-th European Seminar on Applied Thermodynamics, Santorini, Greece, 2002.

Šedlbauer J.: “Predictions of thermodynamic properties of aqueous organic solutes at elevated temperatures”, CZ-PL-D Younger Chemist Meeting, Regensburg, Germany, 2001.

Šedlbauer J., Bergin G., Majer V.: “Towards a prediction scheme for hydration properties of aqueous hydrocarbons up to the critical region of water”, Solution Chemistry, Vaals, Netherlands, 2001.

Šedlbauer J., Majer V.: “Semi-theoretical approaches to modeling thermodynamic properties of aqueous solutions in a wide range of conditions”, Molecular liquids: Water at the new millennium (EURESCO conference), Obernai, France, 2001.

Šedlbauer J., Majer V.: “Predictions of Henry`s constant for environmental chemicals at elevated temperatures”, 18-th European Seminar on Applied Thermodynamics, Kutná Hora, Czech Republic, 2000.

Majer V., Hnědkovský L., Šedlbauer J., Čenský M., Růžička V.: “High temperature thermodynamics of aqueous hydroxy- and amino- derivatives of benzene and toluene”, 16-th IUPAC Conference on Chemical Thermodynamics, Halifax, Canada, 2000.

Šedlbauer J., Majer V.: “Correlation and prediction of standard thermodynamic properties of aqueous solutes over a wide range of temperatures and pressures”, IAPWS Meeting, Prague, Czech Republic, 2000.

Šedlbauer J., Yezdimer E.M., Majer V., Wood R.H.: “Correlations and predictions of standard thermodynamic properties of aqueous organic solutes in a wide range of conditions”, 13-th International Conference on the Properties of Water and Steam, Toronto, Canada, 1999.

Majer V., Šedlbauer J., Wood R.H.: “New data and models for calculating the standard thermodynamic properties of aqueous solutes under hydrothermal conditions”, Fluids/minerals interactions in the crust, a symposium in honour of Martine Lagache, Paris, France, 1999.

Majer V., Degrange S., Šedlbauer J.: “Standard thermodynamic properties of aqueous hydrocarbons up to the critical region of water”, 15-th IUPAC Conference on Chemical Thermodynamics, Porto, Portugal, 1998.

Degrange S., Majer V., Šedlbauer J.: “Obtaining standard thermodynamic data for calculation of hydrocarbon solubility in water over a wide range of temperatures and pressures”, 16-th European Seminar on Applied Thermodynamics, Pont Mousson, France, 1997.

Wood R.H., Šedlbauer J., Plyasunov A.V., Sharygin A.V., O`Connell J.P.: “Towards an equation of state for partial molar properties at infinite dilution in aqueous solutions”, 5-th International Symposium on Hydrothermal Reactions, Gatlinburg, TN, USA, 1997.

Šedlbauer J., Plyasunov A.V., Wood R.H.: “Equations of state for infinite dilution partial molar volumes of nonelectrolytes and 1:1 electrolytes”, 5-th International Symposium on Hydrothermal Reactions, Gatlinburg, TN, USA, 1997.

Yezdimer E.M., Šedlbauer J., Wood R.H.: “Predictions of partial molar volumes and heat capacities for organic aqueous solutions at infinite dilution from 273 K to 523 K”, 5-th International Symposium on Hydrothermal Reactions, Gatlinburg, TN, USA, 1997.

Šedlbauer J., Inglese A., Wood R.H.: “Group contribution method for partial molar heat capacities at infinite dilution of aqueous organic solutes from 25° C to 250° C at 28 MPa”, 51-st Calorimetry Conference, Vancouver, BC, Canada, 1996.

Yezdimer E.M., Šedlbauer J., Wood R.H.: “Group contribution method for partial molar volumes and heat capacities at infinite dilution of aqueous organic solutes”, Manhattan Poster Project, University of Delaware, USA, 1996.

Šedlbauer J., Wood R.H.: “ Equation of state for partial molar volumes at infinite dilution of aqueous solutes”, Manhattan Poster Project, University of Delaware, USA, 1996.

Šedlbauer J., Labík S.: “The bridge function by numerical inversion of Monte Carlo data”, 4-th Liblice conference on Statistical Mechanics, Milovy, Czech Republic, 1994.

Šedlbauer J., Labík S.: “The structure and thermodynamics of hard-disk fluids”, 4-th Liblice conference on Statistical Mechanics, Milovy, Czech Republic, 1994.

Labík S., Šedlbauer J., Smith W.R.: “The structure of hard-sphere fluids by new hierarchy of integral equations”, 4-th Liblice conference on Statistical Mechanics, Milovy, Czech Republic, 1994.  

§          Aktuální

2008 –  2010    GA ČR (spoluřešitel, společně s doc. Janošem z FŽP UJEP) . Název projektu: Non-conventional sorbents in environmental applications.

2008 – 2010 IUPAC/IAPWS (řešitel). Název projektu: Establishing recommended data on thermodynamic properties of hydration for selected organic solutes and gases.

2005 –      jeden z garantů Výzkumného centra Pokročilé sanační technologie a procesy.

2010 – 2013 Člen řídícího týmu Centra pro nanomateriály, pokročilé technologie a inovace

2010 Transformační a rozvojový projekt MŠMT: Dovybavení laboratoře chemie přístrojem pro RTG fluorescenci

Ukončené
2008    IAPWS Collaborative Grant (řešitel v ČR). Název projektu: Equilibrium Constants and Speciation of Aqueous Transition Metal Chloro-complexes over a Wide Range of Temperatures and Pressures.

2008     FRVŠ (řešitel). Název projektu: Inovace a rozvoj multifunkční výukové laboratoře chemie na Technické univerzitě v Liberci.

2006 – 2008    Evropský sociální fond (řešitel). Název projektu: Pregraduální a rozšiřující vzdělávání na pedagogických fakultách.

2006    IAPWS Collaborative Grant (řešitel v ČR). Název projektu: Predictive Scheme for Standard Thermodynamic Properties of Aqueous Substituted Benzenes over a Wide Range of Temperatures and Pressures.

2005 – 2006    program Barrande (řešitel v ČR). Dvoustranná spolupráce ČR – Francie.

2004 – 2005    MŠMT (řešitel). Název projektu: Restrukturalizace studia učitelství na FP TUL.

2003    MŠMT (řešitel). Název projektu: Zvýšení počtu habilitovaných pracovníků na FP TUL.

2003    UNESCO (řešitel). Název projektu: Training course in environmental, multicultural and global education for teachers from post-Soviet countries.

2002 – 2004     GA ČR (řešitel). Název projektu: Modeling thermodynamic properties of aqueous electrolyte solutions at high temperatures and pressures.

2000 – 2002   program Barrande (řešitel v ČR). Dvoustranná spolupráce ČR – Francie.

2000 – 2001   American Chemistry Council (spoluřešitel, společně s Dr. Majerem z Universite Blaise Pascal). Kontrakt objednán a financován ACA. Název kontraktu: Prediction of Henry’s constants of organic chemicals in water as a function of temperature up to 200°C.

1999 – 2001   IAPWS Young Scientist Fellowship (řešitel). Program financovaný The International Association for the Properties of Water and Steam (IAPWS). Název projektu: Correlation and Prediction of Standard Thermodynamic Properties of Aqueous Solutes over a Wide Range of Temperatures and Pressures.

1998     FRVŠ (řešitel). Název projektu: Kurs globální výchovy.  

Vysoká škola chemicko-technologická v Praze, obor Fyzikální chemie, 1992 Ing.

Vysoká škola chemicko-technologická v Praze, obor Fyzikální chemie, 1995 Dr. (2002 nahrazeno Ph.D.)

Univerzita Pardubice, obor Fyzikální chemie, 2002 Doc.

Vysoké učení technické v Brně, obor Fyzikální chemie, 2010 Prof.

Recenzní a oponentská činnost:

Diplomové a disertační práce z FT a FM TUL, Fakulty chemicko-inženýrské VŠCHT Praha, Fakulty stavební ČVUT Praha, habilitační práce z Fakulty chemicko-inženýrské VŠCHT Praha (obor Fyzikální chemie) a z FM TUL (obor Přírodovědné inženýrství), posudky pro FRVŠ, GA ČR, GA AV, MŠMT (program Výzkumná centra), American Chemical Society, Journal of Solution Chemistry, Journal of Physical and Chemical Reference Data, Journal of Chemical and Engineering Data, Fluid Phase Equilibria, Journal of Molecular Liquids. 

Členství v odborných sdruženích a komisích:

International Association for the Properties of Water and Steam: Working Group Physical Chemistry of Aqueous Solutions, místopředseda českého výboru

Oborová rada Fyzikální chemie při VŠCHT Praha

Oborová rada Fyzikální chemie při Univerzitě Pardubice