Studienhandbuch | VL Inorganic Chemistry III

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[ 491WANCIC3V10 ] VL Inorganic Chemistry III

Versionsauswahl

Es ist eine neuere Version 2019W dieser LV im Curriculum Master's programme Chemistry and Chemical Technology (CCT) 2023W vorhanden.

Workload	Education level	Study areas	Responsible person	Hours per week	Coordinating university
2,6 ECTS	M1 - Master's programme 1. year	Chemistry	Günther Knör	2 hpw	Johannes Kepler University Linz

Detailed information
Original study plan	Master's programme Technical Chemistry 2013W
Objectives	Advanced concepts of structure and reactivity in Inorganic Chemistry.
Subject	1 h: Introduction to Organometallic Chemistry: Definition; organometallic compounds vs. coordination compounds; history and important representatives. 2 h: Comparison organometallic chemistry of main group and transition metals; nature of M-C bonds; kinetic stability / reactivity of organometallic compounds; beta-elimination; electronegativity and reactivity; stability of main group organyls; routes to main group organyls. 3 h: Handling of air sensitive organometallic compounds: Schlenk technique, glove box; Characterisation of (organometallic) compounds: (heteronuclear) NMR, single X-ray diffraction, mass spectrometry. 4 h: Lithium organyls: synthesis, structure, reactivity. 5 h: Heavier homologues of lithium organyls: Na, K; 2nd group organyls: Be, Mg (Grignard!); 12th group organyls: Zn, Cd, Hg. 6 h: Boranes, Wade-Mingos-Rules; heteroboranes (structure, reactivity, acidity); Zintl-Phases; Zintl-Clusters. 7 h: Coordination Chemistry: transition metal ions (configuration, oxidation states, ionisation, radii); ligands; isomerism; ligand-field theory (d-orbital splitting of different geometries); Tanabe-Sugano diagram; spectro-chemical series; MO-theory and 18 electron rule; electron counting. 8 h: Ligands: actor, spectators, non-innocent; CO as ligand; carbonyl-complexes (bonding and structures); pi-bonded ligands (ethylene, ferrocene); metal-metal bonds (single, double, triple, quadruple, quintuple, sextuple). 9 h: fundamental reactions of transition metal complexes: association-dissociation, oxidative addition – reductive elimination, insertion – deinsertion; ligand exchange; electron transfer; phosphanes as ligands: basicity, Tolman’s angle, chirality. 10 + 11 h Catalysis: Fundamentals, history, comparison heterogeneous vs. homogeneous, economics, TON, TOF, selectivity; Examples: olefin hydrogenation/isomerizatoin, Wilkinson’s hydrogenation catalyst, olefin hydroformylation, Monsanto process, Wacker process. Carbenes: synthesis, structure, properties and reactivity: Fischer vs. Schrock carbenes; olefin metathesis (Schrock, Grubbs); Wanzlick equilibrium and Arduengo carbenes (N-heterocyclic carbenes); examples for palladium catalysed coupling reactions.
Criteria for evaluation	written exam
Methods	Lecture. Presentation of each lesson can be downloaded as pdf from KUSSS.
Language	English
Study material	Huheey „Inorganic Chemistry“; Riedel: „Moderne Anorganische Chemie“
Changing subject?	No

On-site course
Maximum number of participants	-
Assignment procedure	Direct assignment