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[platne_od] => 31.10.2023 17:11:00
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Technická 5
166 28 Prague 6 – Dejvice
IČO: 60461373 / VAT: CZ60461373
Czech Post certified digital mail code: sp4j9ch
Copyright: UCT Prague 2015
Information provided by the Department of International Relations and the Department of R&D. Technical support by the Computing Centre.
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[obsah] => Department of Solid State Chemistry is focused on materials, methods (X-ray diffraction analysis), and industry applications. A wide choice of Bc., MSc., and Ph.D. programs comprises chemistry and technology of inorganic materials, X-ray diffraction analysis for the pharmaceutical industry, and heavy metal migration in the environment.
The research work of the department deals with two basic topics:
- Application of X-ray diffraction methods in pharmaceutical industry, research, production, and quality check
- Applied mineralogy
History of Department
The staff of the Department follows the tradition of the former Department of Mineralogy. Professor F. X. M. Zippe has established mineralogical collections in 1835, which were later enriched and perfected by Professor A. Ondřej (1887-1956). The mineralogical collections are the well-known treasure of the institute. The X-ray diffraction methods were introduced to our department in 1945 and have remained the prime analytical method of our department.
Cooperation
The Department has an official
cooperation with the company Teva Czech Industries s. r. o. since 1991.
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[obsah] => Department of Solid State Chemistry is focused on materials, methodics (X-ray diffraction analysis) and industry applications. A wide choice of Bc., MSc., and Ph.D. programs comprises: chemistry and technology of inorganic materials, X-ray diffraction analysis for pharmaceutical industry and heavy metal migration in the environment.
The research work of the department deals with three topics:
- Application of X-ray diffraction methods in pharmaceutical industry, research, production and quality check
- Applied mineralogy
- Migration of heavy metals in the environment
History of department
Staff of the Department follows the tradition of the former Department of Mineralogy. Professor F. X. M. Zippe has established mineralogical collections in 1835, which were later enriched and perfected by Professor A. Ondřej (1887-1956). The mineralogical collections are the well-known treasure of the institute. The X-ray diffraction methods were introduced to our department in 1945 and have remained the prime analytical method of our department.
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[obsah] => Research at the Institute deals with two thematic areas
- Application of X-ray structural and phase analysis in pharmaceutical research, development, production and control.
- Monitoring of polymorphism of active pharmaceutical substances by X-ray diffraction analysis methods and development of this methodology
- Zeolites
- Transport of heavy metals in the environment
- Double layered hydroxides
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History of the collections
Mineralogical collections at the Prague Institute of Chemical Technology belong to the oldest and best organized university collections. They are internationally registered in a list of world-known collections in Europe.
The first mineralogical collections was created by professor F. X. M. Zippe for pedagogic purposes of the Technical College in Prague in the year 1835. The basis of this collection has enlarged professor Jan Krejci, whose detailed catalogue of minerals issued in the year 1899 has been preserved till the present days. After the first world war the head of the Mineralogy Department was professor Augustin Ondrej. He made his life goal to finish and shape the mineralogical collections in such form which would well serve also to the next generation as a basis of science and pedagogic work. Purchases, donations, collecting expeditions and numerous exchanges have increased the collection from 2 102 to 23 861 inventory numbers. This was also the last entry of professor Ondrej, who passed away on 22 nd July 1956. His successor professor Jan Kaspar visited his life-time perhaps all continents of the world, studying minerals and their deposites. He collected minerals in all countries he visited.
Organization of collections
In the present form the mineralogical collections cover several units. In the first place is the systematic collection which is located in the main large collection hall. In an adjacent smaller room there is the collection of decorative and gem stones. Supplementary collections are located in the corridor in front of the main hall. They include crystalographical, terminological and petrographical collections and further the collections of industrial and technical raw materials. In the so called small collection hall geaochemical and genetic collectioons of minerals are installed. Here are also exhibited collections of meteorites and tektites.
Visiting of the collections
You can visit our mineralogical collections as follows:
Monday - Thursday: 9:00 - 16:00
Friday: 9:00 - 14:00
You must arrange the visit by e-mail or by phone with the secretary (+420-220443798) or with head of department (+420-220444086).
Photos:
 |
 |
| Decoration and precious stones coll. |
Glass models of diamonds |
 |
 |
| Model of gold and platinum nuggets |
Models of crystal types |
 |
 |
| Petrographic collection |
Corridor in front of main hall |
 |
 |
| Meteorite collection |
Main collection hall |
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DATA
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[obsah] => Topka P., Dvořáková M., Kšírová P., Perekrestov R., Čada M., Balabánová J., Koštejn M., Jirátová K., Kovanda F.: Structured cobalt oxide catalysts for VOC abatement: the effect of preparation method.Environ. Sci. Pollut. Res. 27 (2020) 7608–7617
Jirátová K., Perekrestov R., Dvořáková M., Balabánová J., Topka P., Koštejn M., Olejníček J., Čada M., Hubička Z., Kovanda F.: Cobalt oxide catalysts in the form of thin films prepared by magnetron sputtering on stainless-steel meshes: Performance in ethanol oxidation. Catalysts 806(9) (2019), 16 pp.
Dvořáková M., Perekrestov R., Kšírová P., Balabanová J., Jirátová K., Maixner J., Topka P., Rathouský J., Koštejn M., Čada M., Hubička Z., Kovanda F.: Preparation of cobalt oxide catalysts on stainless steel wire mesh by combination of magnetron sputtering and electrochemical deposition. Catal. Today 334 (2019) 13-23.
Jirátová K., Kovanda F., Balabánová J., Kšírová P.: Aluminum wire meshes coated with Co-Mn-Al and Co oxides as catalysts for deep ethanol oxidation. Catal. Today 304 (2018) 165-171.
Hynek J., Jurík S., Koncošová M., Zelenka J., Křížová I., Ruml T., Kirakci K., Jakubec I., Kovanda F., Lang K., Demel J.: The nanoscaled metal-organic framework ICR-2 as a carrier of porphyrins for photodynamic therapy. Beilstein J. Nanotechnol. 9 (2018) 2960-2967.
Klegová A., Pacultová K., Fridrichová D., Volodarskaja A, Kovanda F., Jirátová K.: Cobalt oxide catalysts on commercial supports for N2O decomposition. Chem. Eng. Technol. 40 (2017) 981-990.
Jirátová K., Balabánová J., Kovanda F., Klegová A., Obalová L., Fajgar R.: Cobalt oxides supported over ceria-zirconia coated cordierite monoliths as catalysts for deep oxidation of ethanol and N2O decomposition. Catal. Lett. 147 (2017) 1379-1391.
Jirátová K., Kovanda F., Balabánová J, Koloušek D., Klegová A., Pacultová K., Obalová L.: Cobalt oxide catalysts supported on CeO2-TiO2 for ethanol oxidation and N2O decomposition. React. Kinet. Mech. Catal. 121 (2017) 121-139.
Basag S., Kovanda F., Piwowarska Z., Kowalczyk A., Pamin K., Chmielarz L.: Hydrotalcite-derived Co-containing mixed metal oxide catalysts for methanol incineration. Role of cobalt content, Mg/Al ratio and calcination temperature. J. Therm. Anal. Calorim. 129 (2017) 1301-1317.
Jirátová K., Kovanda F., Ludvíková J., Balabánová J., Klempa J.: Total oxidation of ethanol over layered double hydroxide-related mixed oxide catalysts: Effect of cation composition. Catal. Today 277 (2016) 61-67.
Pacultová K., Karásková K., Kovanda F., Jirátová K., Šrámek J., Kustrowski P., Kotarba A., Chromčáková Z., Kočí K., Obalová L.: K-doped Co-Mn-Al mixed oxide catalyst for N2O abatement from nitric acid plant waste gases: Pilot plant studies. Ind. Eng. Chem. Res. 55 (2016) 7076-7084.
Ludvíková J., Jablonska M., Jirátová K., Chmielarz L., Balabánová J., Kovanda F., Obalová L.: Co-Mn-Al mixed oxides as catalysts for ammonia oxidation to N2O. Res. Chem. Intermed. 42 (2016) 2669-2690.
Chromčáková Ž., Obalová L., Kustrowski P., Drozdek M., Karásková K., Jirátová K., Kovanda F.: Optimization of Cs content in Co–Mn–Al mixed oxide as catalyst for N2O decomposition. Res. Chem. Intermed. 41 (2015) 9319-9332.
Chromčáková Ž., Obalová L., Kovanda F., Legut D., Titov A., Ritz M., Fridrichová D., Michalik S., Kuśtrowski P., Jirátová K.: Effect of precursor synthesis on catalytic activity of Co3O4 in N2O decomposition. Catal. Today 257 (2015) 18-25.
Klyushina A., Pacultová K., Krejčová S., Słowik G., Jirátová K., Kovanda F., Ryczkowski J., Obalová L.: Advantages of stainless steel sieves as support for catalytic N2O decomposition over K-doped Co3O4, Catal. Today 257 (2015) 2-10.
Lennerová D., Kovanda F., Brožek J.: Preparation of Mg–Al layered double hydroxide/polyamide 6 nanocomposites using Mg–Al–taurate LDH as nanofiller. Appl. Clay Sci. 114 (2015) 265-272.
Jablonska M., Chmielarz L., Wegrzyn A., Guzik K., Piwowarska Z., Witkowski S., Walton R.I., Dunne P.V., Kovanda F.: Thermal transformations of Cu–Mg (Zn)–Al(Fe) hydrotalcite-like materials into metal oxide systems and their catalytic activity in selective oxidation of ammonia to dinitrogen. J, Therm. Anal. Calorim. 114 (2013) 731-747.
Kovanda F., Jirátová K., Ludvíková J., Rabbová H.: Co-Mn-Al mixed oxides on anodized aluminum supports and their use as catalysts in the total oxidation of ethanol. Appl. Catal. A 464 (2013) 181-190.
Ludvíková J., Jirátová K., Kovanda F.: Mixed oxides of transition metals as catalysts for total ethanol oxidation. Chem. Pap. 66 (2012) 589-597.
Kovanda F., Maryskova Z. Kovar P.: Intercalation of paracetamol into the hydrotalcite-like host. J Solid State Chem 184 (2011), 3329-3335.
Kovanda F., Jiratova K.: Supported mixed oxide catalysts for the total oxidation of volatile organic compounds. Catal Today 176 (2011), 110-115.
Kovanda F., Jiratova K.: Supported layered double hydroxide-related mixed oxides and their application in the total oxidation of volatile organic compounds. Appl Clay Sci 53 (2011), 305-316.
Kovar P., Popisil M., Kafunkova E., Lang K., Kovanda F.: Mg-Al layered double hydroxide intercalated with porphyrin anions: molecular simulations and experiments. J Mol Model 16 (2010), 223-233.
Kovanda F., Jindova E., Lang K., Kubat P., Sedlakova Z.: Preparation of layered double hydroxides intercalated with organic anions and their application in LDH/poly(butyl methacrylate) nanocomposites.Appl Clay Sci 48 (2010), 260-270.
Karaskova K., Obalova L., Jiratova K., Kovanda F.: Effect of promoters in Co-Mn-Al mixed oxide catalyst on N2O decomposition. Chem Eng J 160 (2010), 480-487.
Kovanda F., Mašátová P., Novotná P., Jirátová K.: The formation of layered double hydroxides on alumina surface in aqueous solutions containing divalent metal cations. Clay Clay Miner 57 (2009), 425-432.
Obalová L., Karásková K., Jirátová K., Kovanda F.: Effect of potassium in calcined Co-Mn-Al layered double hydroxide on the catalytic decomposition of N2O. Appl Catal B 90 (2009), 132-140.
Jirátová K., Mikulová J., Klempa J., Grygar T., Bastl Z., Kovanda F.: Modification of Co-Mn-Al mixed oxide with potassium and its effect on deep oxidation of VOC. Appl Catal A 361 (2009), 106-116.
Kovanda F., Rojka T., Bezdička P., Jirátová K., Obalová L., Pacultová K., Bastl Z., Grygar T.: Effect of hydrothermal treatment on properties of Ni-Al layered double hydroxides and related mixed oxides. J Solid State Chem 182 (2009), 27-36.
Červený J., Šplíchalová J., Kačer P., Kovanda F., Kuzma M., Červený L.: Molecular shape selectivity of hydrotalcite in mixed aldol condensations of aldehydes and ketones. J Mol Catal A 285 (2008), 150-154.
Kovanda F., Káfuňková E., Rojka T., Lang K.: Intercalation of porphyrins into Mg-Al hydrotalcite. Mater Struct 15 (2008), 28-32.
Lang K., Bezdička P., Bourdelande J. L., Hernando J., Jirka I., Káfuňková E., Kovanda F., Kubát P., Mosinger J., Wagnerová D. M.: Layered double hydroxides with intercalated porphyrins as photofunctional materials: Subtle structural changes modify singlet oxygen production. Chem Mater 19 (2007), 3822-3829.
Obalová L., Jirátová K., Kovanda F., Valášková M., Balabánová J., Pacultová K.: Structure–activity relationship in the N2O decomposition over Ni-(Mg)-Al and Ni-(Mg)-Mn mixed oxides prepared from hydrotalcite-like precursors. J Mol Catal A 248 (2006), 210-219.
Kovanda F., Rojka T., Dobešová J., Machovič V., Bezdička P., Obalová L., Jirátová K., Grygar T.: Mixed oxides obtained from Co and Mn containing layered double hydroxides: Preparation, characterization, and catalytic properties. J Solid State Chem 179 (2006), 812-823.
Obalová L., Jirátová K., Kovanda F., Pacultová K., Lacný Z., Mikulová Z.: Catalytic decomposition of nitrous oxide over catalysts prepared from Co/Mg-Mn/Al hydrotalcite-like compounds. Appl Catal B 60(2005), 289-297.
Kovanda F., Grygar T., Dorničák V., Rojka T., Bezdička P., Jirátová K.: Thermal behaviour of Cu-Mg-Mn and Ni-Mg-Mn layered double hydroxides and characterization of formed oxides. Appl Clay Sci 28 (2005), 121-136.
Kovanda F., Koloušek D., Cílová Z., Hulínský V.: Crystallization of synthetic hydrotalcite under hydrothermal conditions. Appl Clay Sci 28 (2005), 101-109.
Kovanda F., Grygar T., Dorničák V.: Thermal behaviour of Ni-Mn layered double hydroxide and characterization of formed oxides. Solid State Sci 5 (2003), 1019-1026.
Kovanda F., Balek V., Dorničák V., Martinec P., Mašláň M., Bílková L., Koloušek D., Bountseva I.M.: Thermal behaviour of synthetic pyroaurite-like anionic clay. J Therm Anal Calorim 71 (2003), 727-737.
Kovanda F., Jirátová K., Rymeš J., Koloušek D.: Characterization of activated Cu/Mg/Al hydrotalcites and their catalytic activity in toluene combustion. Appl Clay Sci 18 (2001), 71-80.
Kovanda F., Koloušek D., Kalousková R., Vymazal Z.: Zahájení výroby syntetického hydrotalcitu v České republice. Chem Listy 95 (2001), 493-497.
Dousova B., Lhotka M., Grygar T., Machovic V., Herzogova L.: In situ co-adsorption of arsenic and iron/manganese ions on raw clays. Appl Clay Sci 54 (2011), 166-171.
Dousova B., Fuitova L., Herzogova L. et al.: Modified low-grade aluminosilicates as effective sorbents of hazardeous oxyanions from aqueous systems. Acta Geodyn Geomater 6 (2009), 193-200.
Dousova B., Fuitova L., Grygar T. et al.: Modified aluminosilicates as low-cost sorbents of As(III) from anoxic groundwater. J Hazard Mater 165 (2009), 134-140.
Erbanova L., Novak M., Fottova D., Dousova B.: Export of arsenic from forested catchments under easing atmospheric pollution. Environ Sci Technol 42 (2008), 7187-7192.
Dousova B., Martaus A., Fillipi M. et al.: Stability of arsenic species in soils contaminated naturally and in an anthropogenic manner. Water Air Soil Poll 187 (2008), 233-241.
Dousova B., Erbanova L., Novak M.: Arsenic in atmospheric deposition at the Czech-Polish border: Two sampling campaigns 20 years apart. Sci Total Environ 387 (2007), 185-193.
Grygar T., Hradil D., Bezdicka P., Dousova B., Capek L., Schneeweiss O.: Fe(III)-modified montmorillonite and bentonite: Synthesis, chemical and UV-vis spectral characterization, arsenic sorption, and catalysis of oxidative dehydrogenation of propane. Clay Clay Miner 55 (2007), 165-176.
Filippi M., Dousova B., Machovic V.: Mineralogical speciation of arsenic in soils above the Mokrsko-west gold deposit, Czech Republic. Geoderma 139 (2007), 154-170.
Dousova B., Grygar T., Martaus A. et al.: Sorption of As-V on alumino silicates treated with Fe-II nanoparticles. J Colloid Inter Sci 302 (2006), 424-431.
Dousova B., Kolousek D., Kovanda F. et al.: Removal of As(V) species from extremly contaminated mining water. Appl Clay Sci 28 (2005), 31-42.
Dousova B., Machovic V., Kolousek D., Kovanda F., Dornicak V.: Sorption of As(V) species from aqueous systems. Water Air Soil Poll 149 (2003), 251-267.
Dousova B., Kolousek D., Kovanda F. Způsob dvoustupňové dekontaminace důlní vody s vysokým obsahem arsenu a iontů železa. PV 2003-3445, 2003.
Kolousek D., Brus J., Urbanova M. et al.: Preparation, Structure and Hydrothermal Stability of Alternative (Sodium Silicate-free) Geopolymers. J Mater Sci 42 (2007), 9267-9275.
Koloušek D., Vorel J., Procházková E., Doušová B., Andertová J., Kovanda F., Pažout R., Brus J., Urbanová M., Drottnerová J., Holešínský R. Heat- and Alkali-induced Geopolymer Reactions in Systems: NaOH + Metakaoline + H2O, NaOH + Metakaoline (kaoline) + Fly Ash + H2O, NaOH + Slag + Metakaoline + H2O and NaOH + Slag + H2O Conf. World of Coal Ash, Kentucky, 11.4.-15.4., 2005.
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