49 postdoc-computer-science-logic Postdoctoral positions at Chalmers University of Technology
Sort by
Refine Your Search
-
to applied projects linked to societal needs. Key areas include computational mathematics, optimisation, biomathematics, statistics, and data science, supported by an active PhD programme. Our
-
backgrounds in physics or engineering are encouraged to apply. The project is part of a European collaboration. This position is a full-time employment (2 years), with a competitive salary according to Swedish
-
ICSE, SPLC, and ICSA during the past recent years. About the research project As a postdoc, you will conduct original research in the area of AI-based program construction or performance engineering, co
-
We are looking for a postdoc in mathematics with focus on educational science. The research project is focussed on digital learning materials for the global south and refugee camps. More details on
-
requirements are mandatory: To qualify for the position of postdoc, you must hold a doctoral degree in computer science, mathematics, informatics or another relevant field, awarded no more than three years prior
-
to tackle challenges in energy, ICT, and life sciences. We are looking for a postdoc to join our team at the Department of Microtechnology and Nanoscience, Chalmers. Become part of our innovative group and
-
We are looking for a postdoc to join our international team with a broad research focus from functional materials, electrode processing, to the high performance batteries. Become part of our
-
Manufacture at Chalmers University of Technology , focused on innovative research in the design and synthesis of sustainable polymers to be used as a binder for the electrode processing of the lithium ion
-
Join us at the Division of Energy and Materials, Department of Chemistry and Chemical Engineering, and help advance knowledge in the field of hydrometallurgy and Li-ion batteries recycling. About us
-
Join us as a postdoc at the Microwave Electronics Laboratory to solve one of the toughest challenges in modern RF design: eliminating self-interference to enable true In-Band Full-Duplex for MIMO