228 Materials Science positions at Technical University of Denmark in Denmark in Denmark
-
Skip to main content. Profile Sign Out View More Jobs Professor in Advanced Materials for Environmental and Resource Engineering - DTU Sustain Kgs. Lyngby, Denmark Job Description Advanced materials
-
materials: together with collaborators in theoretical and experimental material sciences, you will work on the discovery of new color centers in wide-bandgap 2D materials, and explore their potential
-
, race, religion or ethnic background are encouraged to apply. We carry out research in modern physics, especially in four main areas: sustainable energy, materials, quantum technology and biophysics. Our
-
international research teams. Contribute to the development of DTU Nanolab's Plasma Lab infrastructure. Teaching on all academic levels. Qualifications: A PhD in Physics, Chemistry, Materials Science, or a
-
? Would you like to explore the potential of quantum sensing with color centers, develop new sensing modalities and apply these in biology or material sciences? See More Jobs Page Postdoc in Microscopy
-
. We cover areas such as surface physics, materials science, computer-based material calculations, fluid dynamics, biophysics, plasma physics, and quantum physics, and we encourage collaboration between
-
you like to explore the potential of quantum sensing with color centers, develop new sensing modalities and apply these in biology or material sciences? PhD scholarship in Post-Quantum Cryptography
-
collaborative and interdisciplinary environment, which comprises, among others, experts with background in physics, chemistry, materials and computer science. The section comprises four PIs and approx. 25 between
-
materials processing in laboratory and pilot scale? PhD Scholarships within Novel Silicone Polymers and Elastomers for Soft Robotics – DTU Chemical Engineering Kgs. Lyngby, Denmark Posted on 05/17/2024
-
established Center on Data-Driven Science of 2D Materials. The successful candidate will develop and apply ab initio computational methods rooted in many-body perturbation theory to explore both excited states