-
for material structuring – We investigate nanostructured soft materials using graphene and other high aspect ratio fillers to enhance antibacterial, electrical, thermal, mechanical, gas-barrier, and hierarchical
-
the project period. Research environment The Department of Mechanics and Maritime Sciences (M2) conducts both fundamental and applied research across all modes of transport, aiming to contribute to sustainable
-
, alternating magnetic field processing, or composite processing Experience with characterization techniques for electrical, mechanical, and electromagnetic properties; familiarity with XRD, SEM, TEM, FTIR, DSC
-
languages such as Python or C Solid background in quantum mechanics Experience from working on quantum error-correction, open quantum systems, quantum optics, bosonic codes or continuous-variable quantum
-
different mixing and reactive properties compared to conventional fuels. In this project, turbulent mixing and combustion of hydrogen in air will be studied through optical experiments and numerical modelling
-
Laboratory is addressing thermal management and advanced packaging, mainly by manipulating nanomaterials and compositions to reach maximum thermal, electrical or mechanical performance. The group has a long
-
, and drug delivery. Who we are looking for To qualify for this position you have should have previous experience in amyloid research and a keen interest in science. You need to enjoy to work
-
reliable and sustainable components more affordably and more efficiently. Due to the complexity of the research, an integrated framework combining experiments, simulations, and data-driven methods is
-
the mechanical properties of conjugated polymers change during electrochemical oxidation/reduction cycles. The aim will be to develop wearable electronic devices that leverage these changes, such as variations in