Sort by
Refine Your Search
-
Listed
-
Employer
-
Field
-
interdisciplinary research and international collaboration. Expected start date and duration of employment The expected start date is 1st of September 2026, or as soon as possible thereafter. Job description The
-
international conferences. You will collaborate closely with international academic partners and industrial stakeholders involved in integrated energy systems and district cooling. The position is offered in
-
for other to conduct their own analyses. You understand the importance of interdisciplinary and integrative research and collaboration across scientific disciplines, and capable of integrating several tools
-
, and system-level integration within a high-impact European research collaboration. Responsibilities Your overall focus will be to design, implement, and experimentally validate robotic manipulation and
-
optimization models, carry out techno-economic and environmental assessments, and contribute actively to scientific publications in leading journals and at international conferences. You will collaborate closely
-
hardware realization of neuromorphic systems, bridging neuroscience and electronics. The project combines expertise in circuit design, machine learning, and neurotechnology, and aims to deliver innovative
-
has more than 600 students in its BSc and MSc programs, which are based on AAU's problem-based learning model. The department leverages its unique research infrastructure and lab facilities to conduct
-
employees are internationals. In total, it has more than 600 students in its BSc and MSc programs, which are based on AAU's problem-based learning model. The department leverages its unique research
-
mutiple Postdoc positions in 2026 focussing on nanoparticle catalysis using advanced operando electron microscopy. If you thrive in a collaborative, cutting-edge setting and want to make a global impact, we
-
be tested along an electrolysis system. Within this consortium, the main role of DTU will be on researching how to design an ideal TEG for the heat exchanger system, collaborating closely with