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biotechnology, space biology, and sustainable solutions for plastic and electronic waste recycling. The successful candidate will join a growing space biotechnology team working to understand how microorganisms
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workflows for descriptor based microstructure reconstruction to identify material parameters for crystal plasticity simulations from experimental data through inverse analysis to establish structure–property
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, biological processes for plastic recycling. The research is expected to make use of methods from metabolic engineering, synthetic biology, and adaptive laboratory evolution, as well as automation opportunities
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global student populations. Qualifications: The successful candidate will have a PhD degree in Music, Neuroscience, Psychology, Cognitive Science, Computer Science, Engineering, or a related field by the
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years) in France in order to reduce single use of plastic packaging. However, since the potential number of reuse/recycling of packaging materials is not unlimited, concerns regarding environmental impact
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Metabolism in Cancer: Integrative Approaches in Metabolomics, Fluxomics, and Metabolic Engineering Exploring the molecular mechanisms underlying the potential beneficial effects of GPCR signaling modulation in
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materials for electrolyzer technology to produce sustainable chemical feedstocks. The key objective is to integrate hydrogen production with the electrochemical conversion of waste plastics into value-added
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characterisation of the resulting materials. Carry out modelling of the steel performance under application conditions (plastic damage, wear, fatigue), validating this with laboratory testing. Plan work effectively
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of physical principles, such as thermodynamic consistency, equilibrium, and history dependence. This postdoctoral project focuses on dissipative material behaviors such as plasticity, viscoelasticity, and
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Scheduled Hours 40 Position Summary The Cremins lab works at the spatial biology-technology interface to understand chromatin-to-synapse communication during neural circuit activation in