Kursussøgning, efter- og videreuddannelse – Københavns Universitet

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Kursussøgning, efter- og videreuddannelse

Advanced Physical Chemistry

Practical information
Study year 2016/2017
Block 3 And Block 4
Programme level Full Degree Master
Course responsible
  • Henrik Grum Kjærgaard (3-706f73486b706d7536737d366c73)
  • Department of Chemistry
Course number: NKEK10004U

Course content

This course will describe aspects of both experimental and theoretical advanced physical chemical methods. It will include both gas phase, condensed phase and solid phase. The focus will be on used of a broad range of spectroscopies to gain information of the underlying physical chemistry. Rotations, vibrations and electronic transitions in molecules will be discussed.  Theory of molecular vibration within the local mode model and experimental techniques used to observe the weak overtone transitions associated with the highly vibrational excited molecules will be explained. Single molecule fluorescence and Raman spectroscopy and advanced spectroscopy in catalysis will be studied. The main aim is that student will be able to critically read literature in the areas covered.

Learning outcome

Theory of rotational, vibrational and electronic transitions.
The different experimental techniques used in gas, liquid and solid phase spectroscopy. Some typical acronymn: IR, Raman, SERS, CARS, FRET, XPS, UPS, EXAFS, will be understood.
Experimental experience with IR, Raman and flouresense measurements.

Describe different techniqies and the theorey behind them.
Use of basic spectroscopic instruments.

Be able to critically read papers in current international physical chemistry journals.
Assess the usefulness of different spectroscopic techniques to solve different research questions.
Apply the theroretical knowledge and analytical skills

Recommended prerequisites

The curriculum of MatIntroKem, FysKem1, KemiKS, KemiBin should be known.


MSc Programme in Chemistry


Study Board of Physics, Chemistry and Nanoscience

Course type

Single subject courses (day)


Henrik G Kjærgaard
Tom Vosch


2 blocks


The class will meet 3 times per week.
---- SKEMA LINK ----

Teaching and learning methods

A mix of lecturers, tutorials/group discussions, and student presentation of a topic or a specific journal article. Visits to companies that used some of the techniques.


No admission restriction




Sections from the following Text books:
Physical Chemistry by P. Atkins and J. de Paula, Ninth Edition, OUP, 2010.
Molecular Spectroscopy by Ira N Levine, Wiley and Sons, 1975.
Quantum Chemistry by Ira N Levine, Prentice Hall, 1991.
Principles of Fluorescence Spectroscopy 3rd Edition (J.R. Lakowicz)
Spectroscopy in Catalysis by J.W. Niemantsverdriet, 2007

In addition journal articles and lectures notes will be handed out.

Details will apear on absalon.


Category Hours
Lectures 96
Exam 2
Theory exercises 80
Practical exercises 16
Preparation 192
Excursions 26
English 412

Exam (Oral exam)

Type of assessment

Oral examination, 2 hrs
The student will be given a paper and a question and allowed 30 min preperation time before the oral exam. During the exam the student should present the paper and discuss the question. The paper is one of the papers that have been discussed during the course.


All aids allowed

Marking scale

7-point grading scale

Criteria for exam assessment

Clearly and concisely present a topical journal article, with emphasis on extracting the key informationa and discussing this in context of the theory and experiemtns covered in the course.
Explain the range of experimental techniques discussed in the course and the theoretical principles behind it.

Censorship form

External censorship


same as ordinary exam

Mere information om kurset
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