Faculty of Sciences and Bioengineering Sciences

Admission Requirements

Enrolling for this study plan is possible after having obtained one of the following degrees:

Academic Bachelor's programme chemie

You may also be asked to provide additional documents so we may evaluate your application.

Aanbevelingsbrief 1 / Letter of recommendation 1
Aanbevelingsbrief 2 / Letter of recommendation 2
Motivatiebrief / Letter of motivation
Puntenlijst / Transcript of records

Enrolling for this plan is also possible having completed the Bachelor of Chemistry (only in Dutch).

Enrolling for this plan is also possible having completed the Bridging Programme Master of Science in Chemistry (only in Dutch).

Enrolling for this plan is also possible having completed the Preparatory Programme Master of Science in Chemistry (only in Dutch).

Overview of the study plan

Compulsory: 96 ECTS
Electives: 24 ECTS (15 ECTS Year 1 and 9 ECTS Year 2)


Compulsory

These courses are envisioned to be part of year 1 and 2 of the model trajectory.

Compulsory part 1

These courses are envisioned to be part of year 1 of the model trajectory.

From the courses listed below, students must obtain 45 ECTS credits.

3ECTS credits - Chemometrics
6ECTS credits - Applications in Analytical and Environmental Sciences
9ECTS credits - Analytical Methods for Material Characterization
6ECTS credits - Environmental Analysis
6ECTS credits - Multi Scale Modelling
6ECTS credits - Scientific and Science Communication / Communicating Science
9ECTS credits - Master Thesis Partim I

Compulsory part 2

These courses are envisioned to be part of year 2 of the model trajectory.

From the courses listed below, students must obtain 51 ECTS credits.

21ECTS credits - Master Thesis Partim II
30ECTS credits - Internship

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Electives

Minimum 24 ECTS-credits to choose from the lists of elective courses.

Electives year 1

These courses are envisioned to be part of year 1 of the model trajectory.
Minimum 15 ECTS-credits to choose from the lists of elective courses.

From the courses listed below, students must obtain 15 ECTS credits.

3ECTS credits - Principles & Applications of Stable Isotope Analysis
3ECTS credits - Cosmochemistry
3ECTS credits - Metal Biogeochemical Cycle
3ECTS credits - Chemical Risk Assesment
3ECTS credits - Exposure to Contaminants through Food and Environment
3ECTS credits - Application of Geochemical Methodologies to Bioarchaeology
3ECTS credits - Environmental Law
3ECTS credits - Water Quality
3ECTS credits - Archaeometry
3ECTS credits - Atmospheric Chemistry and Global Change
4ECTS credits - Asymmetric Synthesis
6ECTS credits - Chemical Applications of Group Theory
3ECTS credits - Advanced X-ray Spectroscopy
3ECTS credits - Analytical Raman Spectroscopy
4ECTS credits - Organic Separation techniques and mass spectrometry
4ECTS credits - Light and Matter
4ECTS credits - Structure Analysis by X-Ray Diffraction
3ECTS credits - Field Sampling and Analysis

Electives year 2

These courses are envisioned to be part of year 2 of the model trajectory.
Minimum 9 ECTS-credits to choose from the lists of elective courses.

From the courses listed below, students must obtain 9 ECTS credits.

9ECTS credits - Molecular Physical Chemistry
3ECTS credits - Capita Selecta in Theoretical Chemistry
3ECTS credits - Capita Selecta in Bio-organic Chemistry
3ECTS credits - Molecular Simulations of Biosystems
6ECTS credits - Tracer Isotope Biogeochemistry
3ECTS credits - Exposure to Contaminants through Food and Environment
9ECTS credits - Advanced Organic Chemistry
6ECTS credits - (Bio)Polymers
6ECTS credits - Molecular Structure Analysis
3ECTS credits - Chemical Concepts from Quantum Chemistry
3ECTS credits - Density Functional Theory
3ECTS credits - Homogenous catalysis

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