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Technická 5
166 28 Prague 6 – Dejvice
IČO: 60461337
VAT: CZ60461373
Czech Post certified digital mail code: sp4j9ch
Copyright UCT Prague 2017
Informations provided by the Dean's Office. Technical support by the Computing Centre.
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[obsah] => Nobel Prize winner Vlado Prelog, versatile chemist Emil Votoček, inventor of soft contact lenses Otto Wichterle and many other prominent FCHT graduates helped enhance the fields of study taught at the faculty. At present, these fields embrace development of new (bio) materials with unique properties, alternative sources of energy preparation with (as yet) unknown substances and new medical drugs, and even methods for preserving national cultural heritage. We are training experts who shift the boundaries of knowledge while being aware of their responsibility for maintaining the fragile natural balance. As the classic has put it: "Cherchez chemie!" How true.
We offer studies in interesting and promising directions of advanced chemistry
- Biomaterials for medical purposes (metallic, ceramic and polymeric implants)
- Materials of special properties (nanomaterials, optical waveguides, superconductors)
- Catalysis, reactor engineering, modeling and informatics in chemistry
- Drugs synthesis and manufacturing
- Pharmaceuticals, fragrances, chemical specialties
- Glass, ceramics; crystals; plastics, rubbers
- Conservation and restoration of historical monuments (metallic, wooden and stone)
Research and Development
Research and development activities in the faculty are oriented around basic and applied research in chemistry, chemical technology, and the chemistry of materials (metallic, inorganic non-metallic, polymeric and composite). The faculty is important partner for the chemical and materials industries in both the Czech Republic and abroad.
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We offer advanced studies into interesting and promising directions of advanced chemistry
- Biomaterials for medical purposes (metallic, ceramic, and polymeric implants)
- Materials of special properties (nanomaterials, optical waveguides, superconductors)
- Catalysis, reactor engineering, modeling and informatics in chemistry
- Drugs synthesis and manufacturing
- Pharmaceuticals, fragrances, chemical specialties
- Glass, ceramics; crystals; plastics, rubbers
- Conservation and restoration of historical monuments (metallic, wooden and stone)
Research and Development
Research and development activities in the faculty are oriented towards basic and applied research in chemistry, chemical technology, and the chemistry of materials (metallic, inorganic non-metallic, polymeric and composite). The faculty is an important partner forchemical and materials industries both in the Czech Republic and abroad.
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Chemistry and Technology of Materials
- Development of new metals, polymers, and ceramic materials
- Biomaterials for medicinal use
- Corrosion
- Composite materials
- Superconductors and materials for optoelectronics
- Microanalytical methods and methods of analysis of structural and phase analysis of materials
- Physical chemistry methods for solid materials surface modification
- Chemical stability of materials of monuments
- Solving problems in the polymorphism of substances.
Chemistry and Chemical Technology
- Design and optimization of chemical and electrochemical reactors
- Kinetics of catalyzed and non-catalyzed reactions
- Preparation and characterization of novel catalysts
- Modelling and simulation of chemical processes
- Chemical processes waste treatment
- Fine chemicals
- Chemical and electrochemical synthesis of novel compounds
- Development, optimization and theoretical study of pharmaceutical processes
The faculty offers expert consultation and development work in all of the above areas. Individual departmental pages contain more detailed information about research activities.
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Department of Solid State Chemistry
Growing Single Crystals and Structure Analysis of Multiple Component Crystals
| Granting Departments: | Department of Solid State Chemistry |
| Study Programme/Specialization: | Drugs and Biomaterials ( in English language ) |
| Supervisor: | Ing. Jan Čejka, Ph.D. |
Annotation
API's multiple-component crystals are a valuable option in modfying pharmacokinetic profile, stability of API etc. The application properties of any particular active compound are often rendered by means of the component is built in the structure. This work aims to prepare single crystals of salts, solvates, co-crystals and polymorphs of selected compounds, study potentional temperature dependent phase transitions, their complex characterization using a bundle of analytical methods accenting X-ray structure analysis and consequent correlation of parameters and solvent occupied voids.
Contact supervisor
Study place:
Department of Solid State Chemistry, FCT, VŠCHT Praha
Hydratation and adsorption properties of waste aluminosilicates in water management
| Granting Departments: | Department of Solid State Chemistry |
| Study Programme/Specialization: | Chemistry and Technology of Materials ( in English language ) |
| Supervisor: | doc. Ing. Barbora Doušová, CSc. |
Annotation
Aluminosilicates, together with e.g. powdered building waste, biochar, lignin are able to adsorb and keep a large amount of water compare to soils and sediments. The mixing of these materials with selected soils in controlled dosages can support water retention in soils, which is significant due to more and more often "dry periods" and generally lower precipitation. A controlled dosage of the material with high water retention to soil ecosystems can improve markedly a water regime and hydrological cycle.
Contact supervisor
Study place:
Department of Solid State Chemistry, FCT, VŠCHT Praha
Preparation of organic single crystals based on pharmaceutical materials and characterization of their properties
| Granting Departments: | Department of Solid State Chemistry |
| Study Programme/Specialization: | Drugs and Biomaterials ( in English language ) |
| Supervisor: | Ing. Jan Čejka, Ph.D. |
Annotation
Topic of this work will be focused on preparation and crystal growth of volatile and subliming organic compounds with accent on active pharmaceutical ingredients (polymorhps, solvates, salts or cocrystals) from gaseous phase and solution in order to prepare large-volume crystals thereof. The work will be focused on sublimation apparatus design and optimization of the crystal growth procedure of organic compounds from gaseous state using horizontal two section resistive furnace with separate temperature regulation. This method is based on transferring (subliming) the starting material into gaseous state in the storage part of the growth system and its subsequent crystallization (desublimation) in the dedicated coolest place of the system. Setting of suitable temperature regime in both furnace sections defines and controls the growth rate of growing crystal. An integral part of the work comprises: (i) a new crystallization container divided into storage and crystallization stages will be designed, (ii) growth conditions (temperature gradient in the furnace, temperature regimes) will be optimized, and (iii) the physical, structural and optical properties of the prepared crystals will be characterized. Second part of this work will be focused on preparation of crystals of model organic compounds grown from solution. The solvents influence on the crystallization process and final crystal quality will be evaluated. Results of characterizations performed on crystals obtained from diverse procedures as well as of used procedures will be compared.
Contact supervisor
Study place:
Department of Solid State Chemistry, FCT, VŠCHT Praha
Stability of soil ternary complexes with toxic oxyanion (As/Sb/Se). Effect of iron and organic carbon.
| Granting Departments: | Department of Solid State Chemistry |
| Study Programme/Specialization: | Chemistry and Technology of Materials ( in English language ) |
| Supervisor: | doc. Ing. Barbora Doušová, CSc. |
Annotation
In soil profiles several toxic elements (arsenic, antimony, selenium) occur as oxyanions primarily bound to HFO phases, forming stable surface complexes. This process runs as the balanced adsorption of oxyanions from a soil solution to active adsorption sites of soil particles, in the presence of another anions and dissolved organic matter. During this process the binary and/or ternary soil complexes of HFO, organic matter and oxyanion have been formed. The adsorption and complexation proceed in a colloid environment, which is susceptible to the ionic strength of soil solution (stabilization or aggregation of particles). According to recent results the stability of formed ternary complexes is critical for the long-term stability of binding oxyanions. The aim of this work will be to qualify the formation of organic matter – ferric oxide – anionic particle ternary komplexes, to describe their structure and binding properties, and to estimate the environmental impact to the stability of complex components, particularly the toxic oxyanionic forms.
Contact supervisor
Study place:
Department of Solid State Chemistry, FCT, VŠCHT Praha
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