Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
deep biological tissues. • Development of wavefront control strategies as well as the integration into bespoke photoacoustic microscopes. • Incorporate computational imaging methods into instrument’s
-
display process robustness to allow for the use of the wide range of feedstocks available throughout the seasons. You will join a dynamic and interdisciplinary team of scientists with expertise in mycology
-
for guidance and formalities regarding the application procedure. Per default, the application system requires upload of Cover letter – please state your reasons for applying and your relevant qualifications
-
expected to Fabricate novel SOA coupons for microtransfer printing including some process development. Develop microtransfer printing to SiNx (and SiC) circuits. Characterize test- and device-structures
-
in philosophy and a special focus on ethics, researching theoretical and practical questions of value alignment, control and responsibility in an AI-driven digital world. The ideal candidate is an
-
closely collaborate with other researchers to bring these aspects into an environmental context. In the van Giesen lab we study sensory perception and processing in marine invertebrates. Navigating through
-
in law and a special focus on digital technology such as blockchain and AI, researching regulatory questions of value alignment, control and responsibility in an AI-driven digital world. The ideal
-
in computational sciences (or a related field) and a qualification in digital ethics, researching the technical aspects of ethical questions such as value alignment, control and responsibility in an AI
-
of human innate immune cells using gene editing for highly effective cell-based immunotherapeutics and the design and development of their manufacturing processes. Further focus areas are within next
-
integrates computational and experimental methods to create, analyze, and utilize light- and ligand-controlled protein tools for studying biological processes. By designing non-natural proteins, we examine