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Are you interested in advanced X-ray characterization of complex biological nanostructures? Do you want to contribute to cutting-edge research in dairy protein functionality and supramolecular
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. Evaluate optical performance metrics such as absorption and diffraction across a large design and material space. Curate and format large datasets of simulated nanostructures and their optical properties in
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state-of-the-art diffraction and scattering techniques Establishing structure–property relationships to guide targeted materials design Dissemination of research outcomes through reports, peer-reviewed
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modelling of diffuse scattering using X-rays, electrons and neutrons to establish local structure and correlated disorder in advanced materials and including ultrafast femtosecond science. The project
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of characterization tools (electrical, optical, x-rays, surface science, spectroscopy, microscopy, etc.) Solar device/stack engineering As a formal qualification, you must hold a PhD degree (or equivalent). You are
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have the opportunity to use advanced material characterization techniques (e.g., SEM, TEM, XRD, X-ray CT, rheology, and multiscale mechanical testing) to characterize the consequences of the activation
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oriented and works within the traditional core legal areas as well as across disciplines. We aim to achieve the greatest possible coherence between research, education and knowledge dissemination to ensure
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: Operator Algebras, Machine Learning, Analytic Number Theory, Automorphic Forms and Representation Theory Appl Deadline: 2025/10/10 11:59PM (posted 2025/09/10, listed until 2025/10/10) Position Description
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experimental and theoretical physics with the overall aim to benefit society. We contribute to the transition to sustainable energy via research and innovation in catalysis, Power-to-X, and nuclear energy
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of yeast based CFPS extracts. This involves enhancing expression yield (i.e. 1 – 10 mL), as well as scaling up the production of such extracts to volumes that would allow for larger deliveries of compound