Nanosystems Engineering - Study line
Nanosystems Engineering
The study line in nanosystems engineering focuses on the “top-down” design and fabrication of nano- and microsystems for use in research and industrial applications. Students following the program are trained in state-of the-art nano- and micro fabrication technologies in a combination of theory, simulation, and device fabrication in the Nanolab clean room facility at DTU, and device characterization in our modern laboratory facilities. Topics include sensors, actuators, sensor-systems and -networks, engineering of surface wetting properties, nano-bio handling and detection, nanofluidics, nanophotonics, nano-electronics, nanomanipulation, and nano/microfabrication
Polytechnic foundation courses (10 ECTS)
As described in the curriculum for the main program.
Program Specific Courses
A. Innovation competences
As described in the curriculum for the main program.
Programme specific core courses
B. Experimental competences
5 ECTS points among the following courses must be chosen (surplus points count as other programme specific courses or as elective courses):
| 10855 | Advanced fabrication of micro- and nanostructures | 10 | point | Autumn E2 (Mon 13-17, Thurs 8-12) and Autumn E5 (Wed 8-17) |
Programme specific core courses
C. Numerical competences
5 ECTS points among the following courses must be chosen (surplus points count as other programme specific courses or as elective courses):
| 10350 | Numerical studies in physics | 5 | point | August |
| 34053 | Numerical methods in photonics | 5 | point | Spring F2A (Mon 13-17) |
Programme specific core courses
D. Theoreticall competences
5 ECTS points among the following courses must be chosen (surplus points count as other programme specific courses or as elective courses):
| 10321 | Nanosystems engineering | 10 | point | Autumn E2 (Mon 13-17, Thurs 8-12) |
| 34051 | Nanophotonics | 10 | point | Spring F1 (Mon 8-12, Thurs 13-17) |
Other programme specific courses
Must add up to at least 45 ECTS together with the programme specific core courses
| 10337 | Theoretical microfluidics | 5 | point | Autumn E4A (Tues 13-17) |
| 10346 | Advanced Continuum Physics | 5 | point | Spring F2A (Mon 13-17) |
| 10521 | Physics and technology of two-dimensional materials | 10 | point | Spring F2A (Mon 13-17) and Spring F2B (Thurs 8-12) |
| 10850 | Advanced micro- and nanofabrication technology | 5 | point | Spring F3B (Fri 13-17) |
| 10852 | Introduction to cleanroom-based microfabrication | 5 | point | June |
| or | ||||
| 10851 | Introduction to cleanroom-based microfabrication | 5 | point | January |
| 10862 | Polymer micro fabrication | 5 | point | June |
| 10871 | Advanced design and simulation of solar cells | 5 | point | June |
| 27510 | Biosensors and bioanalysis | 5 | point | Spring F1A (Mon 8-12) |
| 27665 | LabChip: Design of Lab-on-a-chip systems | 5 | point | Autumn E4B (Fri 8-12) |
| 34539 | Design, fabrication and characterization of optical planar waveguide components | 5 | point | June |
| 34540 | Light emitting diodes and photovoltaics for energy applications | 5 | point | Autumn E2A (Mon 13-17) |
| 34551 | Thin film photovoltaics | 5 | point | January |
| 47333 | Electron microscopy for materials science | 5 | point | Autumn E3A (Tues 8-12) |
Recommended study plans with a minimum of programme specific courses
Start in September
1. Semester
2. Semester
3. Semester
4. Semester
30-35 ECTS MSc. thesis
Topic must be relevant for study line
Start in February
1. Semester
2. Semester
3. Semester
4. Semester
30-35 ECTS MSc. thesis
Topic must be relevant for study line