The main structure of the Master's program is shown in the following table. The structure of the master’s program is identical for both specializations. The core program is compulsory for all students within the specialization.
Core Program (specialization specific)
Specialization Elective Program
Free Elective Program
In consultation with a professional coach, which can be a (associate) professor of one of the research groups within this specialization, you will choose a specialization elective program as well as a free elective program, with subjects that link up with your own specific knowledge and interests. The specialization elective program is linked up with the research field you will work on during your graduation project. For this reason, up to three courses from the specialization program need te be approved by the graduation supervisor. For the composition of the free elective program there are no restrictions other than that there should be no overlap with the study components within the Master’s program. Besides a sufficient number of elective courses within the chosen specialization, you can choose courses from the other specialization, from other departments or even from other universities to add to this set of electives.
The industrial internship of 3 months (20 ECTS) will offer you the opportunity to see how Chemical Engineering works in everyday practice. You will also experience a real-life working environment with different people, different backgrounds, different facilities and sometimes a different organization. The industrial internship can take place at a research institute or company in or even out of the Netherlands.
During your graduation project, which lasts eight months, you will further develop the expertise and skills you have developed during the Master's program. You will demonstrate your ability to carry out a research project independently. This project will be carried out in one of the research laboratories at the Department of Chemical Engineering and Chemistry. The topic of the graduation project will lie within the field of research of the section concerned under supervision of the responsible professor.
Research Chemical Engineering and Chemistry
How far can we push chemical self-assembly? Bridging the gap between life sciences and materials science, using organic chemistry and...
Self-Organizing Soft Matter
We study self-assembly processes in (biological) soft matter and translate fundamental insights into rational design strategies for novel...
Research at the Laboratory of Physical Chemistry focuses on relating macroscopic phenomena - such as phase behaviour, morphology formation...
Chemical Process Intensification
Promoting a safe, efficient and clean chemical industry by developing advanced intensified reactor concepts, through state-of-the-art...
Sustainable Process Engineering
We develop new processes based on improved mass and heat transfer rates for a more efficient, environmentally friendly, circular, and...
Stimuli-responsive Functional Materials & Devices
We develop polymers with new responsive functionalities and integrate them into devices, to meet industrial and societal challenges in the...
Multi-scale Modelling of Multi-phase Flows
Over the years the research group Multi-scale Modeling of Multiphase Flows has made seminal contributions to the fundamentals of chemical...
Membrane Materials and Processes
The chair Membrane Materials and Processes of Eindhoven University of Technology focuses on the multidisciplinary topic of the design and...
Supramolecular Polymer Chemistry
Using molecular self-assembly we build supramolecular polymers that derive their functionality from responsivity to molecular or mechanical...
Molecular Materials and Nanosystems
The Molecular Materials and Nanosystems (M2N) group is active in both the department of Applied Physics and the department of Chemical...
In our research we combine techniques from protein engineering, polymer chemistry and bioconjugation approaches to create particles with...
Materials and Interface Chemistry
Inorganic Materials & Catalysis
Establishing fundamental insight into structure-performance relations for heterogeneous catalysts relevant to a sustainable economy.