Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Employer
-
Field
-
the department have established companies to develop new medicinal treatments founded in professional scientific basic research. You can read more about the department here and about the faculty here
-
the development of autonomous, snake-inspired robots capable of robust locomotion across complex and uncertain environments. Drawing inspiration from biological snakes, the research combines soft and flexible
-
will be in developing new techniques for testing and verifying modern highly concurrent systems, such as weak-memory architectures and highly-distributed databases. The position is also open, to some
-
for the position. Technology for people DTU develops technology for people. With our international elite research and study programmes, we are helping to create a better world and to solve the global challenges
-
. The objective is to develop models and algorithms that capture spatial variability, uncertainty, and communication constraints, and to understand how these factors influence perception, adaptation, and
-
development through the Lecturer Training Programme and mentoring. An open and collaborative research culture within SDU’s Faculty of Engineering (TEK), promoting interdisciplinary innovation across electronics
-
members having expertise in microbial metabolism and physiology, enzymology, molecular genetics and ecophysiology, and microbial electrochemistry. What we offer The research group offers: a well-developed
-
of the Built Environment at Aalborg University is a leading national centre for research and education in sustainable architecture, building technology, and urban development. The department integrates
-
Higher Education Impact Ranking 2024, AAU is internationally recognised for its commitment to the UN Sustainable Development Goals, mission-driven innovation, and its systemic Problem-Based Learning (PBL
-
circular power electronics. The position focuses on developing and validating new glass compositions that can serve as recyclable, high-reliability substrates for next-generation power electronic circuits