Sort by
Refine Your Search
-
(ENNPs) to model nanoparticle energy surfaces. Building atom-explicit ground-state models of supported and unsupported nanoparticles. Modeling catalytic reaction kinetics to identify active sites and
-
University. Our research covers physics, chemistry, microbiology, social sciences, geography, and environmental economics, addressing global challenges such as pollution control, land and water management
-
state-of-the-art experimental platforms and contribute to the development of novel diagnostic biosensors and cancer-focused nanomaterial platforms with strong potential for clinical impact
-
potentials (ENNPs) to model nanoparticle energy surfaces. Building atom-explicit ground-state models of supported and unsupported nanoparticles. Modeling catalytic reaction kinetics to identify active sites
-
processing methods (such as solid-state chemical synthesis and wet chemical-based approaches) to fabricate all-solid-state sensor structures Set up experimental work to identify areas for sensor improvement
-
students. Qualifications As a formal qualification, you must hold a PhD degree (or equivalent) in physics, photonics engineering or a related topic. A strong background in laser spectroscopy and solid state
-
Science including quantitative and qualitative consumer research methodologies, and experience in designing consumer studies in and out-side Denmark. Solid experience in statistical analysis are preferred
-
join us. At DTU Chemical and Biochemical Engineering, you will operate at the forefront of computational modelling, integrating high‑fidelity CFD with advanced compartment models and modern data‑driven
-
Science including quantitative and qualitative consumer research methodologies, and experience in designing consumer studies in and out-side Denmark. Solid experience in statistical analysis are preferred