NKEB13013U Advanced Inorganic Chemistry (KemiVU)

Volume 2026/2027
Education

BSc Programme in Chemistry

Content

Descriptive chemistry, primarily of the transition metals: Bonding and structure, reaction mechanisms and equilibrium. Simple models for electronic spectra and magnetic properties of coordination compounds.

Exercises encompassing some important characterization techniques in inorganic chemistry.

Reading and analysis of contemporary research papers in inorganic chemistry.

Learning Outcome

Knowledge of:

  • the important oxidation states for all elements
  • important characterization techniques in inorganic chemistry and of the information provided by these techniques
  • some basic models for electronic structure and reactivity of coordination compounds.


Skills:

  • account for important binary compounds for all elements
  • account for selected coordination compounds for the d- and f-block elements
  • account for the general characteristic chemical behaviour of all elements
  • account for the most important experimental techniques in inorganic chemistry; UV-vis, EPR, IR, heteronuclear NMR, fluorescence and CD spectroscopy; as well as electrochemistry. Being able to account for the shortcomings of these techniques
  • account for structural, mechanistic and thermodynamic aspects of coordination chemistry, including isomerism and chelate effects
  • account for the electronic properties of coordination compounds
  • discuss organometallic chemistry and the models specific to this field.


Competences:

  • an overview of the descriptive chemistry of the periodic table
  • ability to read, understand and discuss contemporary research literature in inorganic chemistry
  • ability to suggest relevant experimental techniques to address specific questions.

See Absalon

It is recommended that the student is familiar with the contents of the compulsory courses on the first year of the bachelor's degree program in Chemistry. In addition to qualifications within the fields of Thermodynamics.
Lectures, laboratory excersices with mandatory reports, theoretical excersices
  • Category
  • Hours
  • Lectures
  • 32
  • Preparation
  • 120
  • Theory exercises
  • 16
  • Practical exercises
  • 36
  • Exam
  • 2
  • Total
  • 206
Written
Oral
Individual
Collective
Continuous feedback during the course of the semester
Credit
7,5 ECTS
Type of assessment
Oral examination, 30 minutes (no preparation time)
Examination prerequisites

Completion and approval of all reports associated with lab exercises.

Aid
Only certain aids allowed (see description below)

Lab exercise instructions and own data is permitted

Marking scale
7-point grading scale
Censorship form
No external censorship
Several internal examiners
Re-exam

Same as the ordinary exam.

The requirement involving participation in experimental activities cannot be waived, and students who do not fulfil this requirement must attend the course during the next academic year.

Criteria for exam assesment

Extent of knowledge of descriptive chemistry
Ability to account for principles in practical exercises
Ability to apply knowledge to discussion of chemical literature