De elektronische studiegids voor het academiejaar 2026 - 2027 is onder voorbehoud.





Bioanalytical methods of molecules (3970)

Coordinating lecturer:Prof. dr. Melissa VAN LANDEGHEM 
Member of the teaching team:De heer Bart RUTTENS 
 Prof. dr. Jan D'HAEN 
 Prof. dr. Melissa VAN LANDEGHEM 


Credits: 4,0
Study load hours: 108
Period: quarter 4 (4sp)

Language of instruction: English
Exam contract: not possible

2nd Chance Exam1: Yes
Final grade2: Numerical
Tolerance3: See included in these programmes

Sequentiality
No sequentiality


Content

The student acquires knowledge on surface sensitive analysistechniques.

The student knows the basic principles of X-ray diffraction and has insight in structure determinination of macromolecules using X-ray diffraction techiques.

The student knows the possiblities and limitations of diffraction techniques.

The student knows the basic principles of magnetic resonance and has insight in the characterisation of biomolecules using different magnetic resonance techniques.

The student knows the possibilities and limitations of different magnetic resonance techniques.

Key-words : structure determination, X-ray diffraction, magnetic resonance



Mandatory software
 


Organisational and teaching methods
Organisational methods  
Lecture  
Practical  


Evaluation

Quarter 4 (4,00sp)

Evaluation method
Written exam100 %
Closed-book

Second examination period

Evaluation second examination opportunity different from first examination opprt
No


Learning outcomes
  EC = learning outcomes      DC = partial outcomes      BC = evaluation criteria  
Master of Biomedical Sciences
  •  EC 
  • 11. A graduate of the Master of Biomedical Sciences can function in a multidisciplnary team and can fulfill a bridging function between the various actors in health care. The graduate knows the importance and needs of the various stakeholders within the life sciences.

  •  EC 
  • BEN 4. A graduate of the Master of Biomedical Sciences specialisation Bioelectronics and Nanotechnology has technical skills in material development, several nano- and micro fabrication methods, and a broad variety of physical, chemical and biological characterization techniques that enable interdisciplinary approaches for advanced diagnosis and therapy.

 

Included in these programmesTolerance3
1st year Master of Biomedical Sciences - Bioelectronics and Nanotechnology Y



1   Education, Examination and Legal Position Regulations art.12.2, section 2.
2   Education, Examination and Legal Position Regulations art.15.1, section 3.
3   Education, Examination and Legal Position Regulations art.16.9, section 2.