Join our research environment and help advance our understanding of reactive transport in porous materials. In this role, you will design and conduct innovative experiments to uncover how flow and chemical reactions interact within complex pore networks. Using state-of-the-art tomographic techniques, you will analyze flow fields and material structures with high resolution, transforming large, complex datasets into meaningful insights. Your work will contribute directly to the development of mechanistic models, pushing the boundaries of modern materials research. You will also share your discoveries through high-impact publications and scientific presentations.

We are looking for a highly motivated graduate with a master's degree in chemistry, radiochemistry, geology, mineralogy, materials science, or a related field. You should have hands-on experience with the experimental analysis of reactive transport processes and be confident in your ability to handle large tomographic data sets. Experience with radioactive materials or radiochemical methods is a plus. You must thrive in an interdisciplinary setting, be driven by scientific curiosity, and be able to communicate your ideas clearly and effectively in English.