Sort by
Refine Your Search
-
Listed
-
Employer
- Technical University of Denmark
- University of Southern Denmark
- Nature Careers
- Technical University Of Denmark
- Aarhus University
- University of Copenhagen
- ; Technical University of Denmark
- Technical University of Denmark;
- ;
- Aalborg University
- Copenhagen Business School , CBS
- Roskilde University
- 2 more »
- « less
-
Field
-
challenges in developing future BCIs is to increase the number of brain signal channels while keeping the system very small and energy-efficient. This is very important for implantable or wearable systems
-
the optimization of bioactive compound extraction from various seaweeds for the development of fortified foods. This PhD position aims to (i ) identify suitable seaweed species for high-yield protein extraction, (ii
-
and peptides in yeast. Your overall focus will be to conduct experiments to explore the relative importance of gene dosage, transcription, translation, and secretion and to develop the assays that allow
-
scientists covering a broad range of expertise in photonics and electronics. The Project in Short The project focuses on developing numerical modeling and optimization tools to explore the information
-
Job Description Are you passionate about the green energy transition? Do you wish to contribute to the development of solutions to support the increasingly renewable power grid? This fully funded 3
-
academic groups and industrial entities in Europe and it addresses the development of a process chain targeting valorization of carbon dioxide to algal proteins. We, at DTU Chemical Engineering, will focus
-
is subject to special rules for security and export control, open-source background checks may be conducted on qualified candidates for the position. DTU Civil and Mechanical Engineering develops and
-
worked to prepare, maintain, and expand the League of Nations as a multifarious, multilateral diplomatic site. Inspired by New Diplomatic History, we want to unearth the diplomatic agency of the staff
-
conversion reactions. The second position is focused on modelling stability of electrocatalyst materials. The aim is to develop a framework to predict metastability of catalyst materials. Among the methods
-
implied, the RIGOLETTO project will prepare the way for further exploiting the potential of RISC-V ISA (instruction set architecture) as a key technology to address the demands in the context of future