Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
Temporary contract | 36 months | Belvaux Are you passionate about research? So are we! Come and join us The Luxembourg Institute of Science and Technology (LIST) is a Research and Technology Organization (RTO) active in the fields of materials, environment and IT. By transforming scientific...
-
Temporary contract | 36 months | Belvaux Are you passionate about research? So are we! Come and join us The Luxembourg Institute of Science and Technology (LIST) is a Research and Technology Organization (RTO) active in the fields of materials, environment and IT. By transforming scientific...
-
methods to enhance the understanding of the Greenland Ice Sheet, peripheral glaciers, and their contribution to sea level rise using finite element models such as the Ice-sheet and Sea-level System Model
-
biotechnological applications. Current proteomics approaches rely almost exclusively on positive ion mode, which leads to inefficient ionization of many acidic peptides. However, acidic and alkaline proteins are
-
will be given to research into (1) Hydrogen-related materials, (2) Battery materials, (3) Quantum materials, (4) Semiconducting materials, (5) Artificial intelligence materials, (6) Metal and inorganic
-
% of the full-time weekly hours Tasks: Advancing relativistic ab initio methods for predicting structural and spectroscopic properties of heavy-element nanocrystals Requirements: excellent
-
over Time (EJoT) into a unified framework for network design and resource pricing. By incorporating these vital elements into the transportation planning process, we strive to create a more inclusive
-
to morphogenetic tissue rearrangements and wound healing processes. SPECIFIC RESEARCH PROJECT: Microtubules are indispensable structural elements in living systems. Their unique mechanical properties play a central
-
for fabrication. In recent years, photoelectrochemically porosified SiC emerged as a promising technology to integrate optical elements (e.g. Rugate mirror) into single-crystalline SiC and to realize robust MEMS
-
Auditorische Neurowissenschaften Professor Doctor Nicola Strenzke Robert-Koch-Straße 40 37075 Göttingen http://www.auditory-neuroscience.uni- goettingen.de/