Sort by
Refine Your Search
-
Listed
-
Employer
- Technical University of Denmark
- University of Southern Denmark
- Nature Careers
- University of Copenhagen
- Technical University Of Denmark
- DTU Electro
- Graduate School of Arts, Aarhus University
- Aalborg University
- Copenhagen Business School , CBS
- Aalborg Universitet
- Aarhus University
- Technical University of Denmark;
- Copenhagen Business School
- Danmarks Tekniske Universitet
- Roskilde University
- Technical University of Denmark - DTU
- 6 more »
- « less
-
Field
-
offer Joining our team will provide you with numerous benefits, including: The opportunity to explore completely new regimes of physics and information, both theoretically and experimentally
-
parts of our genomes that are uniquely human? Laurits Skov’s research group seeks to answer these questions through an interdisciplinary approach using computational method development, population
-
characterization of glycoside hydrolases, and a postdoc working on computational modelling of the same enzymes. The PhD focuses on ligand-observed NMR analyses and other relevant methods to provide insight
-
at Master’s programme or equivalent Quality and relevance of the project description Considerations regarding your project description Quality and relevance of the methodical and theoretical choices Consistency
-
on the development of regulatory tools to improve CRISPR-Cas editing for neurological diseases. You will work with a wide range of methods, including molecular biology, culture and differentiation of human iPSCs
-
methods, theory, and empirical work mutually enrich each other Brings together diverse perspectives: humanistic, educational, socio-cultural, and existential psychology Actively contributes to public
-
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
-
. The successful candidate will work on developing new theoretical models and computational methods to investigate the fundamental limits of polariton-assisted inelastic electron tunneling in tunnel junctions made
-
accomplished using methods such as reinforcement learning that should be initialized with information from human demonstrations. The developed method should be applied to the manipulation of flexible objects
-
groundbreaking electron-beam lithography (EBL) methods that will redefine what is achievable in quantum device fabrication. You will push lithography resolution limits down to the quantum regime, demonstrating