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UCT Prague
Technická 5
166 28 Prague 6 – Dejvice
Identification No.: 60461373
VAT: CZ60461373
Copyright: UCT Prague
Information provided by the Department of Communication.
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UCT Prague - A challenge that pays off
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The University of Chemistry and Technology, Prague consists of four faculties and several other departments
[ikona] => ukazatel [obrazek] => [ogobrazek] => [pozadi] => [obsah] =>Faculty of Chemical Technology
Faculty of Environmental Technology
Faculty of Food and Biochemical Technology
Faculty of Chemical Engineering
402 Department of Analytical Chemistry | ||
403 Department of Physical Chemistry | ||
409 Department of Chemical Engineering | ||
413 Department of Mathematics (replaced by 446) | ||
444 Department of Physics and Measurements | ||
445 Department of Computing and Control Engineering (replaced by 446) | ||
446 Department of Mathematics, Informatics and Cybernetics | ||
453 Dean’s Office of Faculty of Chemical Engineering |
University Research and Education Centres
504 University Centre UCT Prague - Unipetrol | ||
550 Department of the National Institute of Virology and Bacteriology (NIVB) | ||
554 Department for the History of the Chemical Industry and Applied Chemistry | ||
557 BIOMEDREG | ||
558 Metrology and Testing Laboratory | ||
559 Prague University Analytical Center | ||
560 BAFA | ||
570 Technoparc Kralupy UCT Prague |
The Administration of University Facilities
712 Director´s Office | ||
713 Finance Department | ||
721 Operating Department | ||
723 Sázava Dormitory | ||
724 Volha Dormitory | ||
731 Technical Department | ||
747 Conference Center | ||
748 Recreation facility Jáchymov | ||
749 Recreation facility Pec p. Sněžkou | ||
755 Volha Canteen | ||
756 Club Carbon | ||
757 Zikova Canteen | ||
758 Camping site Běstvina |
Service Departments for all UCT Prague Faculties
827 Department of Physical Education and Sport | ||
832 Department of Chemical Education and Humanities | ||
834 Department of Languages | ||
837 Department of Economics and Management |
Rector's Offices
929 General Practitioner | ||
930 Crèche Zkumavka | ||
938 Department of Internal Auditing | ||
939 Department of Supervision | ||
940 Counselling and Career Centre | ||
955 Project Centre | ||
961 Rector's Secretariat | ||
962 Registrar's Secretariat | ||
963 Department of Education | ||
965 Research and Technology Transfer Office | ||
966 Personnel Department | ||
968 Records Office | ||
969 Supplies Department | ||
971 Finance Department | ||
972 Department of Safety and Risk Prevention | ||
974 Department of International Relations | ||
976 Department of Construction and Maintenance | ||
977 Department of Building Administration | ||
979 Department of Communication | ||
980 Central Laboratories | ||
990 Computer Centre | ||
991 Department of Strategic Planning | ||
992 Hollow Glass Workrooms | ||
994 Technology Transfer Office | ||
995 Department of Operation and Technical Services | ||
996 Department of Public Order | ||
997 Centre for Information Services UCT Library UCT Press |
||
998 Vice-Rector's without Portfolio Office |
UCT Prague is a research university primarily focused on technical chemistry, chemical and biochemical technologies, material and chemical engineering, food science, and environmental science. Its cutting-edge facilities and equipment together, with an impressive scientific and research profile, make it an ideal training ground for the managerial, R&D, and public sector leaders of the future.
UCT Prague has four faculties. Its competitive edge lies in its unique “weaving together” of teaching activities with the highest-quality basic and applied research. Across UCT Prague, scientific teams are intensively involved in various national and international cooperative R&D efforts. The Project Centre provides methodological and administrative support to researchers submitting project applications and managing funded projects.
UCT Prague considers the commercialisation of applied research to be an important part of its mission. For that reason, UCT Prague’ss Research and Technology Transfer Office offers researchers support, contributing to extending valourisation of scientific outputs and pursuing the quest for new collaborative partners in applied settings. In 2015, UCT Prague opened Technopark Kralupy, a science and technology hub focused on chemistry for building construction applications, materials engineering, and related fields. The Technopark plays an essential role in UCT Prague’s technology transfer efforts and strategies.
The Research and Technology Transfer Office facilitates internal grants for researchers and students, offers opportunities to compete in prestigious research competitions, and promotes active engagement and participation in student conferences.
UCT Prague is an attractive institution for young scientists and early career researchers, and the Project Centre actively supports hosting and mentoring ECRs, e.g. as part of Marie Skłodowska-Curie Actions. Here, ECRs can apply for a prestigious start-up grant, the Dagmar Procházková Fund, in order to create their own UCT Prague research groups. Postdoctoral fellows at UCT Prague receive extensive international mobility support for broadening their research horizons.
UCT Prague is actively involved in global scientific efforts and is continuously expanding and deepening its collaborations with partners around the world. The basic pillars of these activities include scientific research projects, inter-university cooperation memoranda, and Erasmus+ agreements. UCT Prague additionally creates and accredits joint study programmes with universities abroad.
Paving the way for the European Commission’s HR Excellence in Research Award, UCT Prague is committed to creating collegial working conditions, supporting continuous professional development, and transparent hiring procedures. The Personnel Department co-creates facilities for employees together with the Welcome Centre, which supports employees arriving from abroad, from assisting with the visa process to answering questions about everyday life in Prague. In its determination to be an attractive and welcoming institution for all employees and students, UCT Prague has created a Gender Equality Plan, an executive action initiative.
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Feel free to contact Department of Comunication with any inquiry. The department will provide contact on University scientific staff.
Main contact person
L Mgr. Michal Janovský
b Michal.Janovsky@vscht.cz
e + 420 220 444 159
e + 420 733 690 543
- Room: A205a
Deputy contact person
D Mgr. Jan Kříž
b Jan2.Kriz@vscht.cz
e +420 220 443 799
: +420 728 831 726
- Room A318
Whole team of Department of Comunication
Press releases
- 3. 2. 2024 DETECT! (Deep Tech Creativity) successfully completed the first phase of project activities
- 13. 2. 2024 Hydrogen Academy: a new milestone in clean energy education
- 17. 1. 2024 Jitka Čejková's successful book recently released by prestigious U.S. publisher
- 30. 11. 2023 Material genetics will be pursued by the AMULET project, which succeeded in the Excellent Research Call
- 19. 9. 2023 The Prague Dejvice concept to be completed after 100 years
- 5. 9. 2023 UCT Prague co-founds Prague.bio with goal of connecting research and business sectors
- 1. 9. 2023 Faculty of Environmental Technology celebrates its 70th birthday
- 27. 8. 2023 Prague hosted world’s leaders in catalysis
- 8. 6. 2023 UCT Prague to lead on a new project for boosting innovation and entrepreneurship through deep tech
You can find older press releases in archive.
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[ikona] => [obrazek] => [ogobrazek] => [pozadi] => [obsah] =>
Counselling and Career Centre UCT Prague
We offer students and graduates counselling, psychological counselling, soft skills workshops and job offers.
Alumni Club
The Alumni Club of the UCT Prague, brings together alumni and friends of the University. It strives to create a mutual communication platform between the school, alumni and current students. The club offers alumni meetings and lectures by successful alumni.
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DATA
stdClass Object ( [nazev] => ChemJets2 [seo_title] => ChemJets2 [seo_desc] => [autor] => Anna Konecká [autor_email] => koneckaa@vscht.cz [perex] => [ikona] => banka [obrazek] => [ogobrazek] => [pozadi] => [obsah] =>Eight JUNIOR RESEARCHER positions
!! PLEASE NOTE: The selection for the below positions is closed. A new application round is running only for the position in Macromolecular Chemistry: Polymerization Catalysis (assoc. prof. Merna) with deadline for applications on 20 January 2021. For details of the current selection procedure please go to Open Positions.
University of Chemistry and Technology in Prague opens new positions in:
- Macromolecular Chemistry: Polymerization catalysis
- Chemistry and Technology of Materials: Intercalation
- Chemistry and Technology of Materials: Characterization of glass surface
- Environmental Chemistry and Technology: Catalysis for advanced biofuels
- Microbial Ecology: Bioinformatics
- Metabolomics and Biomonitoring
- Material Science: Gas separation
- Colloidal Engineering and Nanomaterials
Who can apply?
We are looking for postdoc/junior researchers from around the world who:
- are max. 7 years after receiving PhD diploma in relevant field
- were employed outside the Czech Republic for at least 2 years in the last 3 years
- published at least 2 publications in the last 3 years
- are interested in one of the 8 key research areas in chemistry (see below)
- can start the 20-month fellowship on 1 September or 1 October 2020
What do we offer?
- 20-month fellowship at UCT Prague, supported by EU funds
- full-time contract
- monthly salary of 2800 EUR + consumables
- support of excellent mentor & integration in the research team
- employee benefits (6 weeks of vacation, catering allowance, language courses, institutional childcare)
- possibility to apply for own research projects and establish an independent research group
- international creative environment
- enjoyable city life in a tolerant and secure country with rich cultural and natural heritage
- excellent transport connection with the whole world
Selection criteria
- research excellence (publications, citations, projects, etc.)
- clear vision and research objectives
- know-how, international experience, skills, laboratory techniques
- motivation, creativity, activity, flexibility, independence, responsibility
- excellent knowledge of written and spoken English (level B2 or higher)
- organisational, communication and presentation skills
- ability and willingness to publish results in reviewed highly impacted journals
- ability and willingness to prepare and submit a research project during the mobility
How to apply?
- download and fill in APPLICATION FORM
- clearly indicate which position(s) you are applying for
- submit your application via e-mail to anna.konecka@vscht.cz with “ChemJets2 application” in subject by Tuesday 14 April 2020 23:59 Brussels time
- be ready for an individual skype interview with mentor between Mon-Thu 27-30 April 2020
- final results of the selection process will be announced to all applicants in mid-May 2020
Research areas & mentors
MACROMOLECULAR CHEMISTRY: POLYMERIZATION CATALYSIS
Catalytic polymerization of CO2 with heterocycles to biodegradable polymers
The project is focused on the utilization of CO2 as a non-traditional, renewable C1 building block for polymer synthesis. Polymers are prepared by catalytic CO2 polymerizations with strained heterocycles, like epoxides, which leads to the formation of aliphatic polycarbonates that are susceptible to biodegradation. The aim of the project is the development of new catalysts for CO2 activation and exploration of novel substrates as monomers.
Planned activities:
Design and synthesis of new catalysts for CO2 copolymerizations and their characterization, synthesis of polymers in pressure reactor, search for new substrates as comonomers for CO2, preparation of publications.
Specific requirements:
- PhD in organic/organometallic/macromolecular chemistry
- Experience with ligand and organometallic complex synthesis
- Experience with Schlenk techniques
- Experience with basic structural characterization methods (NMR, MS, IR, X-ray)
Mentor: Assoc. Prof. Jan Merna, merna@vscht.cz
Publications:
Kember, M. R.; Buchard, A.; Williams, C. K., Catalysts for CO2/epoxide copolymerization. Chem. Commun. (Cambridge, U. K.) 2011, 47 (1), 141-163.
Paul, S.; Zhu, Y.; Romain, C.; Brooks, R.; Saini, P. K.; Williams, C. K., Ring-opening copolymerization (ROCOP): synthesis and properties of polyesters and polycarbonates. Chem. Commun. (Cambridge, U. K.) 2015, 51 (30), 6459-6479. Kozak, C. M.; Ambrose, K.; Anderson, T. S., Copolymerization of carbon dioxide and epoxides by metal coordination complexes. Coord. Chem. Rev. 2018, 376, 565-587.
Wang, Y.; Darensbourg, D. J., Carbon dioxide-based functional polycarbonates: Metal catalyzed copolymerization of CO2 and epoxides. Coord. Chem. Rev. 2018, 372, 85-100. Hošt’álek, Z.; Mundil, R.; Císařová, I.; Trhlíková, O.; Grau, E.; Peruch, F.; Cramail, H.; Merna, J., Salphen-Co(III) complexes catalyzed copolymerization of epoxides with CO2. Polymer 2015, 63 (0), 52-61.
Hošťálek, Z.; Trhlíková, O.; Walterová, Z.; Martinez, T.; Peruch, F.; Cramail, H.; Merna, J., Alternating copolymerization of epoxides with anhydrides initiated by organic bases. Eur. Polym. J. 2017, 88, 433-447.
CHEMISTRY AND TECHNOLOGY OF MATERIALS: INTERCALATION
Intercalation of water-insoluble compounds into the LDH hosts interlayer
Layered double hydroxides (LDH) with varied composition and charge density of hydroxide layers represent excellent host structures for intercalation of negatively charged anionic species. The project deals with intercalation of drugs poorly soluble or insoluble in water into the layered inorganic hosts. Methods for preparation of intercalates, the host-guest interactions, stability of drugs intercalated in the interlayer, and their back release will be studied.
Main objectives:
Role of the postdoc is to develop and optimize methods for intercalation of water-insoluble compounds into the LDH hosts interlayer and characterize interactions between the host structure and intercalated components.
Planned activities:
Synthesis of LDH hosts with interlayer modified for the incorporation of water-insoluble components, drugs intercalation in non-aqueous media (organic solvents), characterization of obtained products by instrumental techniques, characterization of intercalated drugs stability against degradation, dissolution tests.
Specific requirements:
- PhD in Inorganic Chemistry, Materials Chemistry or related disciplines
- Experience with materials characterization methods (powder XRD, FTIR, UV/VIS, etc.)
- Hands-on experience with synthesis of intercalated compounds is welcome
Mentor: Prof. František Kovanda, Frantisek.Kovanda@vscht.cz
Publications:
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: 265-272, 2015.
Kovanda F., Maryšková Z., Kovář P.: Intercalation of paracetamol into the hydrotalcite-like host. J. Solid State Chem. 184 (12): 3329-3335, 2011.
Jiřičková M., Demel J., Kubát P., Hostomský J., Kovanda F., Lang K.: Photoactive self-standing films made of layered double hydroxides with arranged porphyrin molecules. J. Phys. Chem. C 115 (44): 21700-21706, 2011.
CHEMISTRY AND TECHNOLOGY OF MATERIALS: CHARACTERIZATION OF GLASS SURFACE
Characterization of glass surface
The glass surface is poorly described despite strong demands for enhancing glass usability by improving and/or tailoring its surfaces. Combination of the advanced microscopic and spectroscopic methods with theoretical approaches as thermodynamic modelling and Molecular Dynamics simulations aims to shed light on this challenging issue.
Main objectives and role of postdoc:
The candidate will fuse simple oxide glasses, characterize them, suggest and carry out suitable experiments and run the computer simulations. Later, the researcher will be encouraged to introduce new approaches to surface characterization and to create/refine models to describe the structure, thermodynamics, and properties of the glass surface.
Planned activities:
Characterization of pristine chemically and physically treated glass surfaces by SEM, IM, TOF-SIMS, EPMA, EBSD, and Raman microscopies/spectroscopies; classical molecular simulation of simple glass systems with a focus to surfaces; study of interconnections among properties, structure, thermodynamics, and kinetics of glass surface; suggesting computer and real experiments to establish the dominant forces determining the surface evolution under the external effect.
Specific requirements:
- Experience in programming (FORTRAN preferably), microscopic and spectroscopic analytical techniques is advisable
- Good knowledge of physical chemistry, solid-state chemistry and spectroscopy is expected
Mentor: Prof. Ondrej Gedeon, ondrej.gedeon@vscht.cz
Publications:
O.Gedeon, Origin of glass fragility and Vogel temperature emerging from Molecular dynamics simulations, J. Non-Cryst. Solids 498 (2018) 109-117.
Gedeon, Medium range order and configurational entropy of vitreous silica, Phys. Chem.Glasses – Europ. J. Glass Science and Technol. B 59 (2018) 27-33.
Gavenda, O. Gedeon, K. Jurek, Structural and volume changes and their correlation in electron irradiated alkali silicate glasses, Nuclear Instr. and Methods in Physics Research B 397 (2017) 15-26.
Zemek, P. Jiricek, J. Houdkova, K. Jurek, O. Gedeon, Lead-silicate glass surface sputtered by an argon cluster ion beam investigated by XPS, J. Non-Cryst. Solids 469 (2017) 1-6.
Romanyuk, P. Jiricek, J. Zemek, J. Houdkova, K. Jurek, O. Gedeon, Irradiation of potassium-silicate glass surfaces: XPS and REELS study, Surface and Interface Analysis, 48 (2016) 543-546.
ENVIRONMENTAL CHEMISTRY AND TECHNOLOGY: CATALYSIS FOR ADVANCED BIOFUELS
Multifunctional Catalysts for Efficient Biomass Valorization
Significant attention and research efforts of the scientific community have been dedicated to the efficient valorization of biomass-derived oxygenates to advanced biofuels and petrochemicals. Efficient conversion of simple biomass-derived building blocks, such as different furanics, aldehydes/ketones, acids/esters and phenolics, requires a cascade of multiple conversion steps including, for instance, C-C coupling, dehydration and hydrogenation reactions relying on multifunctional catalysts instead of a cascade of single-function catalysts. Thus, the main motivation of the project is to design efficient multifunctional catalysts for multicomponent mixtures of biomass-derived oxygenates.
Main objectives and role of postdoc:
- Rational design of multifunctional catalysts
- Synthesis of multifunctional catalysts
- Characterization of multifunctional catalysts
- Evaluation of multifunctional catalysts in the model reaction system including C-C coupling and (partial) hydrodeoxygenation
- Interpreting the structure-activity relationships as a way to improve the catalyst design
Planned activities:
- Design and synthesis of multifunctional heterogeneous catalysts
- Detailed characterization of synthesized catalysts
- Activity, selectivity and stability testing of the synthesized catalysts
- Analysis of the catalyst synthesis-structure-properties and structure-properties-activity-selectivity relationships
- Research project proposal preparation
Specific requirements:
- Practical experience in heterogeneous catalysis
- Hands-on experience with synthesis/preparation of heterogeneous catalysts
- Knowledge of catalyst characterization methods
- Hands-on experience with assessment of the performance of heterogeneous catalysts
Mentors: David Kubička, PhD, MBA and Assoc. Prof. Pavel Šimáček
David.Kubicka@vscht.cz Pavel.Simacek@vscht.cz
Department website, Google Scholar
Publications:
R Ramos, Z Tišler, O Kikhtyanin, D Kubička, Towards understanding the hydrodeoxygenation pathways of furfural–acetone aldol condensation products over supported Pt catalysts, (2016) Catalysis Science & Technology 6 (6), 1829-1841
R Ramos, Z Tišler, O Kikhtyanin, D Kubička, Solvent effects in hydrodeoxygenation of furfural-acetone aldol condensation products over Pt/TiO2 catalyst, (2017) Applied Catalysis A: General 530, 174-183
R Ramos, JM Hidalgo, M Göpel, Z Tišler, F Bertella, A Martínez, O Kikhtyanin, D Kubička, Catalytic conversion of furfural-acetone condensation products into bio-derived C8 linear alcohols over NiCu/Al-SBA-15, (2018) Catalysis Communications 114, 42-45
L Hora, V Kelbichová, O Kikhtyanin, O Bortnovskiy, D Kubička, Aldol condensation of furfural and acetone over MgAl layered double hydroxides and mixed oxides, (2014) Catalysis Today 223, 138-147
D Kubička, L Kaluža, Deoxygenation of vegetable oils over sulfided Ni, Mo and NiMo catalysts, (2010) Applied Catalysis A: General 372 (2), 199-208
D Kubička, J Horáček, M Setnička, R Bulánek, A Zukal, I Kubičková, Effect of support-active phase interactions on the catalyst activity and selectivity in deoxygenation of triglycerides, (2013) Applied Catalysis B: Environmental 145, 101-107
MICROBIAL ECOLOGY: BIOINFORMATICS
Bioinformatic analyses of microbial ecological data
With the advent of molecular microbiological techniques, microbial ecologists can now conduct detailed investigations into the composition and functional traits of microbial communities without the need to isolate individual species. Application of high-throughput DNA sequencing to the analysis of all genomes contained within an environmental sample, i.e. metagenomics, has opened new avenues of microbial ecological research. Metagenomics has not only significantly contributed to our understanding of factors which influence microbial diversity, but has also resulted in the recovery of phylogenetically novel taxa and/or novel metabolic pathways. Stable isotope probing (SIP) is a molecular technique where isotope-labelled substrates are pulsed into an environment and, when combined with metagenomics, can directly link members of the environmental community to metabolic activity and functional capacity. The goal of our research is to use metagenomics, metataxonomics (which relies on the amplification and sequencing of taxonomic marker genes), and possibly other omics techniques, in tandem with SIP to better understand: (i) microbial ecology of selected extreme habitats, including thermal or radon water springs or mofettas; (ii) the specific links between secondary plant metabolites, including lignin and its degradative intermediates, and the biodegradative and growth-promoting potential of microbial communities.
Main objectives and role of postdoc:
Our goal is to understand: (i) microbial ecology of selected extreme habitats, including thermal or radon water springs or mofettas; (ii) the specific links between secondary plant metabolites, including lignin and its degradative intermediates, and the biodegradative and growth-promoting potential of microbial communities.
Responsibilities of the post-doctoral fellow will include the analysis of high-throughput sequencing data for the sake of taxonomic and (meta)genomic analyses, including the application of established bioinformatic protocols, as well as the development of novel bioinformatics tools and pipelines.
Planned activities:
- Analysis of high-throughput sequence date from a range of sequencing technologies – Illumina, Nanopore
- Assembly and annotation of whole genomes
- Binning of MAGs from metagenomic and metagenomic-SIP data
- Functional analysis of whole genomes, MAGs, metagenomes and DNA-SIP metagenomes
- Multivariate statistical analyses
- Preparation of publications
- Presentation of results at lab seminars and conferences
Specific requirements:
- PhD in Microbial Ecology, Microbiology, Bioinformatics, Biostatistics or related disciplines
- Experience in metagenomic data analysis, taxonomic marker analyses
- Publications in the field of microbial ecology and/or bioinformatics
- Proficiency with Linux system and shell scripting
- Demonstrated ability to use a range of established bioinformatics tools as well as the development of novel pipelines
- Knowledge of multivariate statistical analyses
- Ability to process and visualize data in R/Python environment
- Familiarity with microbial metabolic pathways and phylogeny
- Ability to work collaboratively in a diverse and fast-paced team
Mentor: Assoc. Prof. Ondřej Uhlík, ondrej.uhlik@vscht.cz
METABOLOMICS AND BIOMONITORING
Development of advanced analytical strategies and big data handling approaches in metabolomics
The project will focus on metabolites that represent the ultimate response of biological system to various factors. As metabolites are fairly different not only in their structure, thus in physico-chemical properties, but also show dynamism in time and space, strategies applicable for their measurements remain the challenge. Currently, gas / liquid chromatography coupled to high resolution mass spectrometry are extensively used in untargeted metabolomics, which involves the profiling of small metabolites in biological samples. The main objective of the project will be the implementation of a comprehensive workflow both for application of the advanced instrumental techniques and for proper, high throughput processing of raw datasets generated by measurements. The optimized approaches will be employed within several case studies concerned with various biological samples.
Role of postdoc:
The main goal of the postdoc will be taking an active role in the development of novel metabolomic approaches for biological samples measurements. Specific attention will be paid to implementation of big data handling strategies that should use vendor neutral data file formats and freely available data processing tools in order to be readily implemented on datasets acquired from instruments of different vendors.
Planned activities:
- Proposal of effective matrix-dependent metabolomic workflows
- Characterization sample sets using metabolomic fingerprinting / profiling, data assessment and interpretation, including (bio)markers identification
- Networking with young scientist working in similar research field around the world
- Publishing obtained data and findings in the peer-reviewed journals and presenting them at international conferences
Specific requirements:
- Knowledge of biotic samples handling (biotic fluids/tissues, plant matrices, food) strategies
- Experience in application of chromatography coupled with mass spectrometry in analysis of food, human and other biotic samples
- At least a basic knowledge of multi-dimensional statistics
Mentor: Prof. Jana Hajslova, jana.hajslova@vscht.cz
Publications: Please go to publications
MATERIAL SCIENCE: GAS SEPARATION
Preparation and study of properties of bi-functional nanocomposite materials for efficient targeted separation of gases and vapors
The project will focus on the preparation of new bi-functional composite materials (based on polymers and / or carbon materials), their characterization (SEM, XRD, TGA, XPS, etc.) and testing of permeation and sorption properties. The influence of preparation conditions and experimental conditions and the effect of nano-additives (magnetic 3D structured nanoparticles with catalytic effect) on the structure and overall separation performance of composite membranes will be studied. Based on the obtained results, the transport of gases and vapors through these materials will be studied and modeled. A unique developed and patented device for controlled deposition of magnetic and magnetically responsive nanoparticles into membranes during their preparation will be used for the preparation of composite materials and will provide the appropriate methodology for other prepared membrane materials as well.
Role of postdoc:
The main goal of the postdoc is to prepare, characterize and test new bi-functional composite materials for targeted membrane separations.
Planned activities:
- Preparation of new composite bi-functional membranes from polymers, carbon-based materials and special nanoadditives
- Characterization and testing of composite membranes by analytical and other experimental apparatuses
- Determination of results and modelling of the transport through membranes
- Publishing obtained data and findings in the peer-reviewed journals and presenting them at international conferences
Mentor: Assoc. Prof. Karel FRIESS, karel.friess@vscht.cz
Specific requirements:
PhD in Chemistry, Physics, Material science, Membrane Science or Chemical Engineering
Publications:
Boháčová et al., Applied Materials Today 15, 335-342, 2019
Lanč et. al., Journal of membrane science 570, 522-536, 2019
Lanč et al., Polymer 144, 33-42, 2018
Bouša et al., Chemistry-A European Journal 23 (47), 11416-11422, 2017
Friess et al., Journal of membrane science 415, 801-809, 2012
COLLOIDAL ENGINEERING & NANOMATERIALS
Controlled assembly of nanoparticles into functional materials and their application
Proposed project is building on the successful development of the methodology using process of nanoparticle assembly into 3D nano- and micro-materials. The project will extend this knowledge towards development of novel materials suitable for enzyme immobilization, bio-/photo-catalysis, scaffolds for tissue engineering and controlled drug delivery. Material backbone will be prepared by nanoparticle assembly using polymeric or inorganic materials followed by suitable surface functionalization (i.e. biomolecule receptor, enzyme immobilization, MOF decoration, incorporation of photocatalytic material). Consequent characterization (SEM, nitrogen sorption, Hg porosimetry, XRD, TGA, XPS etc.) will serve as a basis for the optimization of synthesis process and testing of final material.
Role of postdoc:
The postdoc will be responsible for synthesis of suitable nanoparticles, optimization of assembly process and functionalization of the final material. Once prepared, she/he will perform material characterization and testing. She/he will collaborate with PhD students working on related research topics as well as co-supervise Bc/MSc thesis dedicated to the project research topic.
Planned activities:
- Preparation of nanoparticles (NPs) to be used as building blocks for synthesis of 3D structures
- Optimize assembly (self-assembly) process for preparation of material with desired properties (e.g. porosity and pore size distribution, cluster size, shape and composition)
- Development of surface functionalization using suitable chemistry allowing attachment of desired molecules/end groups
- Characterization of prepared materials using combination of techniques (i.e. SEM/TEM, DLS/SLS, nitrogen sorption, Hg porosimetry, XRD, TGA, XPS)
- Testing the applicability of prepared material for conversion of molecules using immobilized enzymes or photo catalyst, formation of 3D scaffolds for tissue engineering or controlled drug delivery
- Preparation of 1-3 scientific publications in the impact factor journals where the junior researcher will be the first author
Mentor: Prof. Miroslav Šoóš, miroslav.soos@vscht.cz
Specific requirements:
The candidate is expected to have proven knowledge in the following area:
- Organic/polymer chemistry/material synthesis
- Material characterization using at least some of these techniques: SEM, DLS/SLS, nitrogen sorption, Hg porozimetry, XRD, TGA, XPS etc.
- Functionalization of material surfaces allowing attachment of biomolecules and charged end groups
Publications:
Kutorglo E. A., Hassouna F., Beltzung A., Kopecký D., Sedlářová I. and M. Šoóš, Nitrogen-rich hierarchically porous polyaniline-based sorbents for carbon dioxide (CO2) capture, Chemical Engineering Journal 2019, 360, 1199-1212
Kim H., Hassouna F., Muzika F., Arabacı M., Kopecký D., Sedlářová I. and M. Šoóš, Urease adsorption immobilization on ionic liquid-like macroporous polymeric support, Journal of Materials Science 2019, 54, 14884–14896
Kutorglo E. A., Hassouna F., Kopecký D., Fišer L., Sedlářová I., Zadražil A. and M. Šoóš, Synthesis of conductive macroporous composite polymeric materials using porogen-free method, Colloids and Surfaces A. 2018, 557, 137-145
Lamprou A., Gavriilidou A. F. M., Storti G., Soos M. and M. Morbidelli, Application of Polymeric Macroporous Supports for Temperature-Responsive Chromatography of Pharmaceuticals, Journal of Chromatography A 2015, 1407, 90–99
de Neuville B. C., Lamprou A., Morbidelli M. and M Soos, Perfusive ion-exchange chromatographic materials with high capacity, Journal of Chromatography A 2014, 1374, 180–188
Lamprou A., Kose I., Pen͂a Z. A., Storti G., Morbidelli M. and M. Soos, Macroporous Polymer Particles via Reactive Gelation under Shear: Effect of Primary Particle Properties and Operating Parameters, Langmuir 2014, 30, 13970-13978
Lamprou A., Kose I., Storti G., Morbidelli M. and M. Soos, Synthesis of Macroporous Polymer Particles using Reactive Gelation under Shear, Langmuir 2014, 30, 6946–6953
Codari F., Moscatelli D. S., Furlan M., Lattuada M., Morbidelli M and M. Soos, Synthesis of Hetero-Nano-Clusters: The Case of Polymer-Magnetite Systems, Langmuir 2014, 30, 2266−2273
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