-
interdisciplinary collaboration and international excellence. You will be embedded in an experienced, dynamic and multi-disciplinary team, and will have the opportunity to work on innovative approaches with access
-
in this 4-year PhD project. The successful candidate will take the lead in designing and constructing the next generation of DNA-based nanoscale motors (in particular, translational motors) embedded in
-
patients. Embedded within a flexible academic–industry collaboration, the project offers room for scientific exploration, innovation, and the opportunity to contribute to model-informed drug development in
-
-of-the-art single-cell and spatial technologies through these collaborations. You will be embedded in a vibrant environment that values innovation, teamwork, and scientific rigor, with direct impact on ongoing
-
processing, embedded systems, machine learning, and networked communication. Each PhD position corresponds to a dedicated research topic within the consortium. All doctoral researchers will benefit from joint
-
embedded in an experienced, dynamic and multi-disciplinary team, and will have the opportunity to work on innovative approaches with access to state-of-the-art facilities. As part of your doctoral program at
-
methodologies. The final aim is to build a methodological and scientific foundation for a new type of wireless infrastructure that is open, adaptable, energy-conscious, and architecturally embedded in the city
-
explicit in model design, we aim to improve data efficiency, computational efficiency, and domain generalization. The project will be embedded in the international research group EAVISE. The standard