270132 UE Advanced Laboratory Course in Organic Chemistry (2021W)
Continuous assessment of course work
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Summary
Registration/Deregistration
Note: The time of your registration within the registration period has no effect on the allocation of places (no first come, first served).
- Registration is open from We 14.07.2021 08:00 to Fr 16.07.2021 23:59
- Deregistration possible until Fr 16.07.2021 23:59
Registration information is available for each group.
Groups
Group 1
max. 54 participants
Language: German
Lecturers
- Christian Dank
- Neydher Berroteran Infante
- Jörg Heider
- Laura Ielo
- Petra Krizkova
- Lukas Scheibelberger
- Toda Stankovic
Classes (iCal) - next class is marked with N
Dies ist der September-Kurs. Die Anmeldezeitraum für das reguläre Praktikum im Wintersemester (270132-2) ist von 1. bis 26. September
Vorbesprechung, Literaturrecherche und Einführung in die praktische Laborarbeit können in Moodle im Bedarfsfall nachgehört werden.Vorbesprechung + Fragestunde: 14.7.2021 14:00 Uhr
NMR Einführung: 14.7.2021 15:00 Uhr
(Nur bei Bedarf) Einführung in die praktische Laborarbeit 15.7.2021 13:00Platzübernahme: 13.9.2021
Praktische Arbeit: 14. - 29.9.2021
Platzrückgabe: 30.9.2021
- Wednesday 17.11. 12:30 - 16:30 Carl Auer v. Welsbach-Hörsaal Chemie Boltzmanngasse 1 HP (Kickoff Class)
Group 2
Achtung: Anmeldung funktioniert nur über https://univis.univie.ac.at !!!
max. 54 participants
Language: German
LMS: Moodle
Lecturers
- Christian Dank
- Sergio Armentia Matheu
- Lothar Brecker
- Bogdan-Razvan Brutiu
- Cristian De Luca
- Tamara Dinhof
- Tanja Eder
- Carlos Goncalves
- Petra Krizkova
- Hanspeter Kählig
- Terézia Morávková
- Sarah Pfaff
- Daniele Poletto
- Vincent Porte
- Margaux Riomet
- Stavroula Melina Sakellakou
- Lukas Scheibelberger
- Toda Stankovic
- Roberto Tinelli
- Florian Traxler
- Lisa Grötzl (Student Tutor)
Classes (iCal) - next class is marked with N
Due to the current Corona situation, course rooms can only be used by a limited number of students at a time. Thus, two consecutive courses will be offered.
Introductions and preliminary discussions will be offered online and together for both groups (Moodle), while the practical work will be done in two separate courses
Introduction to literature search tools: 16.11. 10:45-11:45,
Introduction to practical lab work: 17.11. 12:30-16:30h;practical lab work COURSE 1: 22.11.- 9.12.2021
practical lab work COURSE 2: 13.12.-17.12.2021 sowie 10.1.-19.1.2022
the course work is done in full days ( 9:00 am -6:00 pm, incl. 1 h lunch break) on 12 days in a row.
- Wednesday 17.11. 12:30 - 16:30 Carl Auer v. Welsbach-Hörsaal Chemie Boltzmanngasse 1 HP (Kickoff Class)
Information
Aims, contents and method of the course
Assessment and permitted materials
Preparation and characterization of 11 synthetic products. For each example working sheets, literature search and practical skills will be evaluated (maximum 18 pt per example). Additionally up to 8 points can be reached during a Moodle exam about safety related topics
Minimum requirements and assessment criteria
Mandatory criteria for acceptance to the course: Lectures “Organische Chemie I” and “Chemisches Grundpraktikum II” as well as parallel registration for the “Proseminar in Organic Chemistry” are mandatory.Recommened: Basic knowledge in spectroscopy, recommendation: “Molekülspektroskopische Übungen”To pass the course it is necessary to obtain a minimum of 134 points (out of 200 in total). Grading key: 0-134 P = nicht genügend (5), 134-149 P = genügend (4), 150-167 = befriedigend (3), 168-184 = gut (2), 185-200 = sehr gut (1)
Examination topics
On working sheets to the examples the students are asked about techniques, methods and theoretical backgrounds necessary to work on the relevant tasks.
Reading list
praktische Laboroperationen: Hünig, Kreitmeier, Märkl, Sauer, Arbeitsmethoden in der Organischen Chemie (Verlag Lehmanns, Berlin 2006) oder H.G.O. Becker, W. Berger, G. Domschke, ORGANIKUM, (22. Auflage, Gebundene Ausgabe, VCH-Wiley, 2004)
Association in the course directory
BA CH 11b
Last modified: Th 11.11.2021 15:49
The objective of the course is to improve the participants' knowledge of synthetic organic chemistry. A series of 11 individual synthetic steps will be performed to illustrate and practice typical working methods, as well as separation and purification procedures like extraction, distillation, chromatography, crystallization, and performing reactions under absolute conditions. Control of purity and/or characterization of isolated products will be done by physical and/or spectroscopic methods. For selected examples a literature search, including on-line information retrieval will be performed with the aim to evaluate, adapt, and apply known synthetic procedures.