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The aim of the subject is to acquire both theoretical and experimental knowledge of modern laboratory techniques. Among the performed experiments are cross-coupling reactions, photochemical reactions and other reactions that require handling of organometallic and hydride reagents, working under inert atmosphere using inert lines and septum techniques, working in a glovebox, working with a microwave reactor, working at low temperatures and with low-boiling liquids. The products obtained will be isolated by advanced separation techniques (vacuum distillation, crystallization and column chromatography) and their structure and purity will be determined by selected analytical methods (NMR spectroscopy, TLC, UV/VIS spectroscopy).
Last update: Rybáčková Markéta (11.09.2023)
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Defense of an individual project. Last update: Rybáčková Markéta (06.08.2019)
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Printed experiment procedures. Last update: Rybáčková Markéta (16.08.2024)
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1. Determination of unknown concentration of butyllithium solution – working under inert atmosphere using inert lines and septum techniques. 2. Birch reduction of o-xylene – working with low-boiling liquids, working at low temperature, determination of reaction conversion by NMR spectroscopy. 3. Reduction of a carboxylic acid ester – working with hydride reagents under inert atmosphere, crystallization, determination of product purity by NMR spectroscopy. 4. Acylation of cyclohexanone - utilization of enamines in organic synthesis, working with Dean-Stark apparatus, vacuum distillation. 5. Horner-Wadsworth-Emmons reaction – working with sodium hydride under inert atmosphere, crystallization, determination of product purity by NMR spectroscopy. 6. Negishi cross-coupling – working with organozinc reagents under inert atmosphere, column chromatography. 7. Photochemical oxidation of sulfides to sulfoxides – measurement of UV spectra, calculation of extinction coefficient, weighing on an analytical balance, analysis of the reaction mixture by HPLC. 8. Ring-closing metathesis – working in a glovebox, kinetic study using NMR spectroscopy. 9. Microwave heating in organic synthesis - working with a microwave reactor, identification of an unknown sample. 10. Introduction into separation techniques in organic synthesis - separation of a product mixture via flash chromatography. Last update: Rybáčková Markéta (11.09.2023)
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Printed experimental procedures. Last update: Rybáčková Markéta (11.09.2023)
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Students will be able to: work under inert atmosphere using an inert line and septum techniques work at low temperatures work in a glovebox work with a microwave reactor work with an instrument for flash chromatography work with low-boiling liquids work with organometallic and hydride reagents measure UV spectra and analyse a reaction mixture by HPLC Last update: Rybáčková Markéta (11.09.2023)
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No. Last update: Kundrát Ondřej (22.02.2018)
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Teaching methods | ||||
Activity | Credits | Hours | ||
Účast v laboratořích (na exkurzi nebo praxi) | 5 | 140 | ||
5 / 7 | 140 / 196 |
Coursework assessment | |
Form | Significance |
Regular attendance | 20 |
Report from individual projects | 20 |
Defense of an individual project | 60 |