The aim of the interdisciplinary doctoral study program Analytical Geochemist is to prepare highly qualified specialists with knowledge and skills in the fields of Analytical Chemistry and Geology. The PhD students are prepared at two institutes of the Faculty of Science, the Institute of Chemistry and the Institute of Geological Sciences. The study is based on independent creative activity and research of experimental character under the guidance of a supervisor. The theoretical knowledge of analytical chemistry and geology, which the student acquires by completing courses with a deepening and broadening focus, is complemented by practical experience with modern techniques of instrumental analysis. Students will learn to critically evaluate the knowledge gained by studying literature and independently create publications and research reports in English. During their studies, they will acquire the pedagogical experience and the ability of management in helping with the teaching of students of bachelor or master studies. The student publishes the achieved scientific knowledge in reputable professional journals and summarizes it in the form of a doctoral dissertation. The aim of the study is also to gain a broader scientific insight, international experience and language skills, which is made possible by stays at partner workplaces at home and abroad and by active participation in national and especially international scientific conferences.
The study is designed so that the graduate is prepared not only for scientific research activities, but also for the fulfillment of tasks of geological practice and generally for employment in industry. At present, the geological activities place a strong emphasis on economic indicators of preparatory, monitoring and implementation work, which requires a multidisciplinary knowledge of the properties and behavior of a diverse rock environment, the design of a targeted analytical procedure and the selection of a suitable methodology. Assessment of already implemented projects and their practical impacts also requires knowledge of the rock environment and analytical methods. The graduate preparedness to solve these tasks will be ensured in this doctoral study by linking basic geological disciplines with modern instrumental analytical chemistry. The graduate will master modern methods of spectrometric analysis, principles of good laboratory practice, computer processing of results and chemometry and metrology for correct evaluation of analysis results and method validation. They will realize the links between geosciences and analytical chemistry. He / she is able to apply the acquired knowledge and skills from both scientific disciplines to the solution of assigned tasks in the academic environment and in the industrial sphere.
By increasing the proportion of experimentally oriented courses and introducing practice, new studies strengthen the practical competencies of graduates in accordance with labor market requirements. In addition to the student's own experimental work in the implementation of research related to the dissertation topic and beyond the practice at another workplace, the current curriculum design includes approximately 30% of experimental teaching in the form of laboratory exercises. The graduate is therefore flexible; is able to adapt to the requirements of workplaces with analytical and geological focus when solving complex tasks.
According to the Government Order, students are obliged to complete an internship abroad for at least one month. As part of the Analytical Geochemist program, a semester internship is recommended.
Thanks to the interconnection of analytical chemistry and geology, graduates of the Analytical Geochemical Doctoral program will find employment in scientific and research institutions such as the Academy of Sciences, universities, Czech Geological Survey, Czech Hydrometeorological Institute, but also in technologically oriented jobs: the collection and treatment of waste, eventually waste water treatment, in state administration, especially the environmental protection departments. Graduates will be prepared to work in the mining and energy industries, such as companies engaged in mining, geological exploration and projection, as well as in industrial companies focusing on metallurgical, engineering, glass and ceramic production.
Data from the previous admission procedure (1 Jan – 30 Apr 2020)
The entrance examination is scored and the candidate must obtain 120 points out of 200 for admission 1. Expert knowledge - 60 points out of 100. Expert knowledge is rated:
- for graduates in chemistry within the scope of master in analytical chemistry curriculum;
- for graduates in geology within the scope of master in geology curriculum
Combination of laser techniques, X-ray fluorescence spectroscopy and solution methods for analysis of mineral and rock
Supervisor: doc. Mgr. Karel Novotný, Ph.D.
Vývoj metod laserové ablace, spektroskopie laserem buzeného plazmatu LIBS a rentgenové fluorescence pro analýzu různých typů minerálů a hornin. Porovnání možností lokální analýzy s možnostmi stanovení celkového složení pomocí roztokové analýzy s využitím metod ICP-OES a ICP-MS.
Supervisor: Mgr. Markéta Holá, Ph.D.
- U-Pb datování zirkonu
- vývoj metody pro určování stáří uraninitu
- porovnání použití různé instrumentace
- porovnání LA-ICP-MS s roztokovou analýzou ICP-MS
Supervisor: doc. Mgr. Eva Geršlová, Ph.D.
In reservoir petroleum biodegradation has resulted in vast deposits of heavy oil around the globe. Biodegradation of oil results in a decrease in the hydrocarbon content and an increase in oil density, sulphur content, acidity and viscosity. Extraction of heavy oil is more costly and less efficient than conventional oil production and consequently oil biodegradation on geological timescales has significant economic and environmental impacts. To design the optimal extraction of such oils, it is necessary to understand in detailed the specific reservoir conditions that combine oil and gas composition, reservoir lithology and previously used extraction techniques.
SPECIALIZATION: The doctoral thesis focuses on determination of degree of biodegradation of oils in the reservoir of selected fields in the Czech Republic. Methods of sampling and determination of biodegradation will be designed on the basis of laboratory measurements.
Supervisor: prof. RNDr. Přemysl Lubal, Ph.D.1. Termodynamické a kinetické studium vybraných chemických systémů pomocí molekulové spektroskopie a separačních technik s vyhodnocením pomocí pokročilých chemometrických metod
2. Chemické modelování na základě získaných termodynamických dat pro reálné systémy
3. Ověření chemického modelu analýzou reálných vzorků pomocí separačních a spektroskopických technik
4. Návrh a testování senzorových polí a jiných prostředků pro speciační analýzu vzorků obsahujících uran
|Provided by||Faculty of Science|
|Type of studies|
|Standard length of studies||4 years|
|Language of instruction||Czech|
|Doctoral board and doctoral committees|