Sort by
Refine Your Search
-
experiments and numerical simulations to understand and predict the clogging evolution in a range of geological media by: Quantifying physical and chemical clogging dynamics across a spectrum of rock types
-
systematic investigation across diverse rock types and integration with predictive models remains lacking. In this PhD study, you will be performing experiments and numerical simulations to understand and
-
method enables high-frequency strain, but the mechanism remains unknown. As a PhD, you’ll uncover how dynamic stress drives CO₂ conversion into valuable chemicals with minimal energy and waste. Ready to
-
catalysts ‘move’, their activity can increase up to 30×. A new piezoelectric method enables high-frequency strain, but the mechanism remains unknown. As a PhD, you’ll uncover how dynamic stress drives CO
-
, or similar; strong programming skills (Python or similar); affinity with spatiotemporal data analyses, remote sensing and numerical modelling; the ability to independently plan and organise the research, and
-
with spatiotemporal data analyses, remote sensing and numerical modelling; the ability to independently plan and organise the research, and to take a leading role in its direction; strong oral and
-
sensors for measuring macromolecular crowding in C. elegans; use advanced fluorescence microscopy techniques, complemented by molecular biology and biochemical methods; be an active member of an open and
-
influences policy; Innovative methods: Work with cutting-edge approaches, translating knowledge into practice; Strong support network: Benefit from experienced supervisors, peer mentoring, and a dedicated
-
by molecular biology and biochemical methods; be an active member of an open and interdisciplinary research team; learn to independently collect, analyse and interpret your data, share your data
-
the ECCO project, you you expect the following: Real-world impact: Your research directly empowers citizen collectives and influences policy; Innovative methods: Work with cutting-edge approaches