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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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[perex] => The 26th International Conference on High Resolution Molecular Spectroscopy
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Prof. Per Jensen obituary
(One section on conference will be dedicated to Per Jensen and will be led by Dr. Špirko)
You can find the 1st Circular here
You can find the 2nd Circular here
You can find the 3rd Circular here
You can find the 4th Circular here
Jointly organized by Department of Electromagnetic Field, Faculty of Electrical Engineering
Czech Technical University in Prague
You can find the abstract template in docx here and pdf here
Registration and payment instruction you can find here
Registration for the conference Praha 2022 is OPEN now.
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[obsah] => The activities at the Department of Analytical Chemistry are very wide, including studies from molecules in the gas phase to sophisticated analyses of complex biosystems. In research projects, not only high-end chromatographic (GC-, LC-MS), electrochemical and spectroscopic (UV-VIS, IR, CD, ROA, NMR) techniques are used but also original optical and electrochemical sensors or unique spectroscopic systems in microwave to terahertz regions, which are able to distinguish even the hyperfine effects caused by nuclear spins, are used to solve complicated problems. These include development of new diagnostic methods for serious and degenerative diseases (cancer, diabetes, Alzheimer's disease, etc.), development of new techniques for forensic science (offender profile by odor trace, digitization of odor signatures, drug profiling, drug counterfeiting analysis, etc.), stability analysis and dosage forms of pharmaceuticals, identifying new free radicals and molecular fragments for astrophysical research or developing and validating new methods of analyzing specific samples.
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In addition to teaching staff and researchers, they are per se considered to be individual groups of doctors who have a significant proportion of participants in the scientific performance of the Department of Analytical Chemistry. Specific topics of their doctoral theses are listed in the SIS and are listed in the list of doctoral students on our website.
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[obsah] => Analytical chemistry is a multidisciplinary field using knowledge from the different fields of chemistry and physics to determine the atomic and molecular composition of samples, the structure and conformation of molecules, intermolecular interactions and morphology in the condensed phase, or to analyze the quantitative representation of atoms and molecules in a sample. It is based mainly on the knowledge of physical chemistry, chemical physics, and electrochemistry, but also on the results of mathematical statistics, quantum mechanics, quantum chemistry, biochemistry, organic and inorganic chemistry and in recent decades also knowledge in electronics, computer technology and signal processing.
Methods of chemical analysis have extensive applications. It is not just chemistry itself, analytical chemistry finds vital applications in medicine in diagnostic methods, in pharmacy, in forensic sciences, in environmental studies, in the food industry, in the cosmetics industry, in the material sciences, in physiology, in the military, in meteorology, space research, automotive, metallurgy, energy, and many other fields.
The Institute of Analytical Chemistry provides teaching of all courses with codes x402xxx (EIS). These are the basic subjects, which include Analytical Chemistry I and II, and the subjects for the individual bachelor, master, and doctoral programs.
In addition to theoretical education, great emphasis is placed on mastering practical work and basic and advanced techniques in laboratories. Therefore, individual laboratories are equipped with a sufficient number of quality instruments allowing each student to work alone in pairs.
Among the disciplines at ICT Prague, graduates of analytical chemistry have an unrivaled position in the labor market.
For information about bachelor and master programs in English click here.
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[obsah] => The research at the Department of Analytical Chemistry is very wide, including studies from molecules in the gas phase to sophisticated analyses of complex biosystems. In research projects, not only high-end chromatographic (GC-, LC-MS), electrochemical and spectroscopic (UV-VIS, IR, CD, ROA, NMR) techniques are used but also original optical and electrochemical sensors or unique spectroscopic systems in microwave to terahertz regions, which are able to distinguish even the hyperfine effects caused by nuclear spins, are used to solve complicated problems. These include development of new diagnostic methods for serious and degenerative diseases (cancer, diabetes, Alzheimer's disease, etc.), development of new techniques for forensic science (offender profile by odor trace, digitization of odor signatures, drug profiling, drug counterfeiting analysis, etc.), stability analysis and dosage forms of pharmaceuticals, identifying new free radicals and molecular fragments for astrophysical research or developing and validating new methods of analyzing specific samples.
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Research groups
Name
Leader
Contact
Forensic Olfactronics
Prof. Š. Urban
Stepan.Urban(at)vscht.cz
Electroanalytical Methods
Assoc. Prof. T. Šiškanova
Tatjana.Siskanova(at)vscht.cz
Microwave and Terahertz Spectroscopy
Prof. Š. Urban
Stepan.Urban(at)vscht.cz
NMR and Molecular Recognition
Assoc. Prof. B. Dolenský
Bohumil.Dolensky(at)vscht.cz
Atomic Spectrometry
Prof. O. Mestek
Oto.Mestek(at)vscht.cz
Vibrational Spectrometry
Prof. V. Setnička
Vladimir.Setnicka(at)vscht.cz
Chiroptical Methods
Prof. V. Setnička
Vladimir.Setnicka(at)vscht.cz
Separation Methods
Assoc. Prof. D. Sýkora
David.Sykora(at)vscht.cz
Radioanalytical methods
Assoc. Prof. P. Řezanka
Pavel.Rezanka(at)vscht.cz
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[obsah] => | Head: | doc. Ing. Bohumil Dolenský, Ph.D. |
| phone: | 220 444 110 |
| email: | Bohumil.Dolensky@vscht.cz |
| Department administrator: | doc. Ing. Antonín Kaňa, Ph.D. |
| phone: | 220 445 057 |
| email: | Antonin.Kana@vscht.cz |
| Department vice-administrator: | Ing. Magda Vosmanská, CSc. |
| phone: | 220 443 719 |
| email: | Magda.Vosmanska@vscht.cz |
| Secretary: | Bc. Pavla Pouzarová |
| phone: | 220 444 044 |
| email: |
| Secretary: | Perla Maršíčková |
| phone: | 220 444 043 |
| email: | perla.marsickova@vscht.cz |
| office hours for students | Mo - Fr 9:30 – 11:30 |
| Mon, Tue, Thur 14:00 - 15:00 |
| Economist: | Petr Beneš |
| phone: | 220 444 058 |
| email: | Petrik.Benes@vscht.cz |
All contacts can be found in the phonebook of UCT.
Address:
Department of Analytical Chemistry
University of Chemistry and Technology Prague
Technická 5
166 28 Praha 6 - Dejvice, Czech Republic
DATA
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[obsah] => Doctoral students work closely with their advisors, primarily as scientific assistants, assisting with research projects in addition to completing any required coursework. The UCT Prague doctoral experience also includes opportunities for teaching and of course, writing and defending a doctoral dissertation related to the research projects.
Doctoral students at the UCT Prague can complete their studies either as full-time students
or as a combination of full-time and distance learning. Each student can adjust his/her study plan, according to his/her field of research. The standard length of the doctoral study programme is four years, according to current accreditation requirements.
For more information, click here.
For application requirements, click here.
Doctoral Study Programme
Our department guarantees the following doctoral programme:
Chemistry (AD402) Guarantor: Prof. Vladimír Setnička
For more information about research groups, click here.
Double Degree Programme
Our department offers PhD topics for the doctoral programme:
Analytical and Physical Chemistry (ADD402) Guarantor: Assoc. Prof. Karel Friess
For more information about the Double Degree Programme at UCT Prague, click here.
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List of available PhD theses - Department of Analytical Chemistry:
Interpretation of Raman optical activity of nuclei acids
Department: Department of Analytical Chemistry, Faculty of Chemical Engineering
Also available in programme: Chemie (double degree)
Theses supervisor: prof. RNDr. Petr Bouř, CSc.
Annotation
Spectroscopy of vibrational Raman optical activity is a new and dynamically evolving analytical method providing important information, such as about biopolymer and enzyme structure. The applications are very dependent on spectral interpretations based on the molecular dynamics and quantum chemical computational methods. For nucleic acids, although experimentally very interesting systems can be approached, including viruses, the relation between the spectrum and the structure is not completely known. A big problem are computer demands required by these complex and big molecules. We will therefore focus on development of experimental and computational methodology for model system, suitable to describe specific nucleic acid properties, such as flexibility and polarity. Modern computational methods will be both used and developed, such as combination of classical and quantum mechanics or testing models of solvent and environment during molecular interactions.
Foreign partner university: UIT The Arctic University of Norway
Structure and optical activity characterization of organometallic complexes with the aid of quantum chemistry
Department: Department of Analytical Chemistry, Faculty of Chemical Engineering
Also available in programme: Chemie (double degree)
Theses supervisor: prof. RNDr. Petr Bouř, CSc.
Annotation
Organometallic complexes often exhibit unique optical properties, used in bioimaging and detection of other molecules in analytical chemistry. Lately, several new phenomena appeared when using polarized spectroscopy, such as circular polarized luminescence or resonance Raman optical activity, potentially leading to further applications. So far, there theoretical description is incomplete. On model systems we will therefore investigate how contemporary methods of quantum chemistry can describe polarization phenomena on these computationally difficult (relativity, high spin) but interesting systems.
Foreign partner university: UIT The Arctic University of Norway
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List of available PhD theses - Department of Analytical Chemistry:
Isolation of biologically active compounds from Sutherlandia and identification of their molecular structure
Department: Department of Analytical Chemistry, Faculty of Chemical Engineering
Also available in programme: Chemie
Theses supervisor: doc. Ing. Bohumil Dolenský, Ph.D.
Annotation
Sutherlandia plants have been identified as being useful in the treatment of various diseases. The aim of this work is to isolate new biologically active substances, to identify their molecular structure using high-resolution NMR and MS, and to describe their biological activity in cooperation with screening centres.
Workplace: Department of Analytical Chemistry
Preparation of solid surfaces with a molecular receptor covalently anchored, and studies of their usability in sensors construction
Department: Department of Analytical Chemistry, Faculty of Chemical Engineering
Also available in programme: Chemie
Theses supervisor: doc. Ing. Bohumil Dolenský, Ph.D.
Annotation
The aim of this work is to modify the chemical structure of molecular receptors functional in solution so that they can be covalently attached to a solid surface or prepare a polymer. Study the functionality and usability of such materials for sensor construction.
Workplace: Department of Analytical Chemistry
Spectroscopic Studies of Protein Fibrils
Department: Department of Analytical Chemistry, Faculty of Chemical Engineering
Also available in programme: Chemie
Theses supervisor: prof. RNDr. Petr Bouř, CSc.
Annotation
Many biological processes involve aggregation of proteins into insoluble aggregates, "fibrils". Their properties are studied, for example, to prevent neurodegenerative diseases limiting human live time. We use optical spectroscopic, computational and other methods to understand basic principles of fibril behavior and structure. Particular aim of the thesis is to develop measurement and interpretation procedures for the modern spectroscopy of Raman optical activity, the topic involves spectroscopic experiments as well as computational modeling.
Workplace: Department of Analytical Chemistry
Study of porphyrin derivatives of Tröger and spiro-Tröger bases enabling recognition of cancer cells and photodynamic therapy
Department: Department of Analytical Chemistry, Faculty of Chemical Engineering
Also available in programme: Chemie
Theses supervisor: doc. Ing. Bohumil Dolenský, Ph.D.
Annotation
A major problem in the treatment of cancer is the recognition of healthy cells from cancer and the selective removal or killing of cancer cells. Several substances that are used for visual diagnosis and photodynamic treatment are from the group of porhyrin and chlorine derivatives. The aim of this work is to prepare porphyrin, chlorine and bacteriochlorin derivatives of Tröger and spiro-Tröger bases and to study their usefulness for selective recognition of cancer cells and subsequent photodynamic therapy.
Workplace: Department of Analytical Chemistry
Surface enhanced fluorescence as a tool for nanotransporter localization in a cell
Department: Department of Analytical Chemistry, Faculty of Chemical Engineering
Also available in programmes: Chemie, Molekulární chemická fyzika a senzorika
Theses supervisor: doc. Ing. Kamil Záruba, Ph.D.
Annotation
The project will deal with the development of fluorescence analysis methods for reliable detection of the localization of drug nanocarrires in a living cell. Although fluorescence methods show favorable detection limits in many cases, many organic fluorescent substances exhibit toxicity even at very low concentrations. Current methods of fluorescence microscopy make it possible to monitor the localization of practically individual nanoparticles that have penetrated the cell membrane into the cell. Surface-enhanced fluorescence that occurs near metallic nanoparticles may allow the detection of fluorescent substances at such low concentrations that allow the application of completely non-toxic (low) doses of the preparations to study the chemical behavior of living cells in the presence of these transporters.
Workplace: Department of Analytical Chemistry
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