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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
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- 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 Metals and Corrosion Engineering
Advanced high-entropy alloys with modifiable properties
| Granting Departments: | Department of Metals and Corrosion Engineering |
| Study Programme/Specialization: | Chemistry and Technology of Materials ( in English language ) |
| Supervisor: | doc. Ing. Filip Průša, Ph.D. |
Annotation
High entropy alloys belong to a relatively new group of materials which are characterized by the preferential formation of solid solutions instead of intermetallic compounds. These materials exhibit several excellent properties, foremostly high strengths while maintaining sufficient ductility, good corrosion resistance and others. By suitable processing of these alloys, it is possible to achieve further substantial improvement of these already very good properties. The work will be focused on the preparation of new advanced high-entropy alloys combining significantly higher strengths while maintaining sufficient plasticity.
Contact supervisor
Study place:
Department of Metals and Corrosion Engineering, FCT, VŠCHT Praha
Effect of environmental parameters and surface state on hydrogen entry
| Granting Departments: | Department of Metals and Corrosion Engineering |
| Study Programme/Specialization: | Chemistry and Technology of Materials ( in English language ) |
| Supervisor: | doc. Ing. Tomáš Prošek, Ph.D. |
Annotation
To assure safe operation of the infrastructure for transport and storage of hydrogen advancing the goals of decarbonisation of Europe, this project will focus on understanding into the effect of environmental parameters on processes controlling entry of atomic hydrogen into materials in contact with pressurized hydrogen. The risk of hydrogen embrittlement is affected by the quantity of diffusible hydrogen present in metallic material, with thresholds depending on material composition and microstructure. The role of environment (temperature, pH, redox potential, corrosivity, presence of recombination poisons), surface reactions (including adsorption) and surface state (contamination, oxide film, corrosion products) in hydrogen entry in dry pressurized hydrogen, humid hydrogen and water electrolyte in contact with pressurized hydrogen will be investigated. Critical factors controlling the entry and critical application conditions will be identified through understanding the underlying processes. Experiments combining exposures in deuterated water and gaseous hydrogen with the potential to gain deeper insight into the entry mechanism will be carried out at together with an Austrian partner. Industrial support with samples and advanced analytics will be provided by a major operator of underground storages in the Czech Republic. Machine learning techniques will be applied to treat the obtained data and find interdependencies.
Contact supervisor
Study place:
Department of Metals and Corrosion Engineering, FCT, VŠCHT Praha
Improved durability and application properties of additively manufactured tools for automotive
| Granting Departments: | Department of Metals and Corrosion Engineering |
| Study Programme/Specialization: | Chemistry and Technology of Materials ( in English language ) |
| Supervisor: | doc. Ing. Tomáš Prošek, Ph.D. |
Annotation
Additive manufacturing (AM) provides the possibility of a step change in material efficiency by increasing the ‘buy-to-fly’ ratio by reducing material waste, design optimisation by placing material only where it is needed in a component, and the possibility of repair of components to dramatically extend service life. For these benefits to be fully realised, optimised circular approaches to AM are required including the use of recycled materials, improved feedstock (powder) manufacturing with increased yields, manufacturing with low or no defects and resultant parts with excellent performance including the ability to repair and remanufacture to dramatically improve life span. In order to reduce the carbon footprint of car production, this project will aim at optimization of additive manufacturing technologies in order to reach longer lifetime of produced tooling for car part production at reduced manufacturing environmental costs. It will be allowed by deeper understanding into the relationship between the properties of metal powder, manufacturing parameters and application properties. Tooling with improved corrosion, wear or heat resistance will thus be produced. In particular, the project will look at (1) understanding into the effect of powder composition on final performance of produced parts, (2) increase powder re-use or application of powders made of recycled metals, (3) optimization of post-treatment techniques such as fine machining, heat treatment and nitridation, (4) development of methodologies for assessment of product durability, including advanced defectoscopy techniques, mechanical tests and corrosion resistance, and (5) identification of areas where material or energy savings can be reached without compromising the application properties. The project will be carried out with the support of a major Czech car manufacturer and in cooperation with an Australian university.
Contact supervisor
Study place:
Department of Metals and Corrosion Engineering, FCT, VŠCHT Praha
Limiting the risk of hydrogen embrittlement of steel by surface treatment
| Granting Departments: | Department of Metals and Corrosion Engineering |
| Study Programme/Specialization: | Chemistry and Technology of Materials ( in English language ) |
| Supervisor: | doc. Ing. Tomáš Prošek, Ph.D. |
Annotation
To advance the goals of decarbonisation of Europe, ways for increasing safety of metallic materials used for hydrogen storage and transport need to be sought, increasing the availability of hydrogen as an energy source. Within this study, possibilities for limiting the risk of hydrogen entry to new steel parts and existing steel installations by surface modification and coatings will be investigated. Namely, formation of protective oxide films, surface active inhibitors, and metallic or organic coatings will be studied. The aim will be to identify coatings and surface modification technologies capable of efficient and long-term reduction of atomic hydrogen formation and entry, or forming a barrier between gaseous hydrogen and steel, or otherwise reducing the sensitivity to hydrogen embrittlement. Series of experiments will be carried out to understand the role of different surface treatments in surface hydrogen activity and transport properties of hydrogen in coating materials using advanced techniques available in the hydrogen laboratory of Technopark Kralupy. Selected solutions will be tested in pressurized hydrogen. For the retrofitting applications, surface treatment of materials from natural gas storage facilities will be used. Access to natural gas storage facilities and their typical materials will be provided by a major operator of underground storages in the Czech Republic.
Contact supervisor
Study place:
Department of Metals and Corrosion Engineering, FCT, VŠCHT Praha
New approaches to corrosion protection of steel reinforcement in concrete
| Granting Departments: | Department of Metals and Corrosion Engineering |
| Study Programme/Specialization: | Chemistry and Technology of Materials ( in English language ) |
| Supervisor: | doc. Ing. Milan Kouřil, Ph.D. |
Annotation
Corrosion of steel reinforcement is a major cause of damage to reinforced concrete structures, causing huge economic damage and posing a safety risk. The protection of reinforcement against corrosion has not yet been satisfactorily addressed. The approaches being developed are based on the selection of more resistant materials, the use of appropriate surface treatments and the application of corrosion inhibitors, sealing agents and electrochemical methods of corrosion protection. In particular, the use of electrochemical techniques to accelerate the transport of corrosion inhibitors to the reinforcement and to increase the effect of sealing agents will be studied. Methods for electrochemical testing of the effectiveness of these protective techniques will be developed.
Contact supervisor
Study place:
Department of Metals and Corrosion Engineering, FCT, VŠCHT Praha
The use of waste materials to increase the utility properties of modern alloy systems
| Granting Departments: | Department of Metals and Corrosion Engineering |
| Study Programme/Specialization: | Chemistry and Technology of Materials ( in English language ) |
| Supervisor: | doc. Ing. Filip Průša, Ph.D. |
Annotation
Metallic materials are nowadays reaching many application limits regarding their mechanical properties, which can not be further overcome by common techniques, including microstructural refinement or intensive plastic deformation. Therefore, incorporating new phase particles such as oxide or carbides seems to be highly perspective due to their ability significantly strengthen the alloys. In the frame of the dissertation, the possible utilization of waste materials to improve the properties of modern alloy systems will be studied.
Contact supervisor
Study place:
Department of Metals and Corrosion Engineering, FCT, VŠCHT Praha
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