Sort by
Refine Your Search
-
physiological performance. The research will explore interactions between trace elements, soil microbial communities, and plant–soil feedback mechanisms, as well as their impacts on key soil health indicators
-
performance in semi-arid environments Duration: 12 months, renewable Position Summary: We are seeking a docotor in energy to join our research team as a Postodoctoral researcher. The position focuses
-
, understanding degradation mechanisms, and improving electrochemical performance. The postdoc will work with state-of-the-art facilities for materials synthesis, structural and electrochemical characterization
-
, hydrometallurgy, and environmental engineering. The successful candidate will carry out duties to the highest standard and will: Help at designing and setting up experimental work at lab and pilot scale. Perform
-
candidate is expected to: Design and perform advanced cell culture experiments on multiple cell lines Perform experiments to study cell behavior under different conditions Conduct multiparametric flow
-
: Support the development of AI and machine learning algorithms for autonomous navigation. Assist in building digital twin models to monitor drone health and mission performance. Contribute to IoT integration
-
processing, while maintaining high efficiency and selectivity in flotation performance. Responsibilities: Develop and synthesize bio-based flotation additives (e.g., collectors, dispersants, depressants
-
that regard, there is an urgent need to double the ongoing efforts for developing innovative and sustainable solutions to increase crop production. Hence, exploring the diversity and functioning of soil
-
reactors (CSTRs) plays a crucial role in next-generation energy storage technologies. Achieving high tap density, uniform morphology, and enhanced electrochemical performance depends strongly on the fluid
-
the performance of LFP batteries, with a particular emphasis on advanced material coating strategies. The project addresses the growing need to improve the surface properties and stability of LFP materials