Studienhandbuch | VL Inorganic Chemistry II

Inhalt

^(*) Leider ist diese Information in Deutsch nicht verfügbar.

Workload	Ausbildungslevel	Studienfachbereich	VerantwortlicheR	Semesterstunden	Anbietende Uni
4,5 ECTS	B1 - Bachelor 1. Jahr	Chemie	Christoph Topf	3 SSt	Johannes Kepler Universität Linz

Detailinformationen

Quellcurriculum

Bachelorstudium Chemistry and Chemical Technology 2025W

Lernergebnisse

Kompetenzen
^(*)Drawing from the predecessor lecture, Inorganic Chemistry II further expands on the overarching principles of periodicity. Following these, they students will be able to design the syntheses of functional inorganic materials from scratch. They will know how to modify the structures and compositions of compounds in order to achieve new materials with tailormade properties. The application field of the materials thus produced ranges from industrial to medicinal chemistry.

Fertigkeiten	Kenntnisse
^(*)On completion of the course the students are able to • predict the lattice type of ionic compounds; • calculate the lattice energy of salts; • predict the solubility of ionic compounds; • predict coordination equilibria; • rationally design medicines, antidots, and dyes based on inorganics.	^(*)Underlying concepts and details of • ionic lattice types and radius ratios; • energetics of ion pair formation; • solubility rules for oxoanions; • minerals and fertilizers; • entropy and hydrated ions; • monodentate and chelating ligands; • macrocycles, metal organic framework compounds (MOFs), and clathrates; • the hard and soft acid-base (HSAB) principle.

Beurteilungskriterien

^(*)Written exam.

Lehrmethoden

^(*)Lecture course with additional materials provided.

Abhaltungssprache

Englisch

Literatur

^(*)To be announced in the lectures.

Lehrinhalte wechselnd?

Nein

Äquivalenzen

^(*)TCBPAVOAOCH: VO Anorganische Chemie II (5,2 ECTS)

Präsenzlehrveranstaltung
Teilungsziffer	-
Zuteilungsverfahren	Direktzuteilung