Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
-
Field
-
be used to prepare lamella samples for high resolution cryo-EM imaging and tomography. From AI assisted image analysis, 3D models for key proteins and biomolecular complexes will be fitted into 3D
-
an experience in technology-assisted monitoring or computational image analysis. Expected start date and duration of employment The position will start in June 2026, with exact starting date as agreed between
-
and maintenance of monitoring buoys and related sensor systems. Apply image analysis and machine learning techniques to ecological datasets. Develop and implement multi-platform monitoring frameworks
-
collaboration Transcripts and diplomas (Master’s and PhD) Two letters of recommendation Recruitment procedure: The Recruitment Committee will shortlist a minimum of two applicants; where possible, five or more
-
’ at BMB and the ‘Danish National Mass Spectrometry Platform for Proteomics and Biomolecular Imaging’ (PLATO), which provides a highly international, collaborative, ambitious and innovative research
-
. This full-time position offers a unique opportunity to contribute to high-impact research in drones, AI, and human-computer interaction. Successful candidates will join a dynamic and inspiring international
-
projects funded by Danish and EU research councils, as well as by private foundations and companies. In addition, the department is responsible for teaching at the undergraduate, graduate, and PhD levels
-
the traditional boundaries between the areas of materials physics, materials processing, and materials science. One of the key goals is to synthesise proper materials, whose properties can be controlled by
-
bridges the traditional boundaries between the areas of materials physics, materials processing, and materials science. One of the key goals is to synthesise proper materials, whose properties can be
-
imaging. This position offers the opportunity to develop cutting-edge platforms for real-time monitoring of human tissue metabolism in physiologically relevant models. You will play a key role in our