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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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(maintenance, vendor liaison) and contribute to outreach (talks, demos, public engagement). Education, Qualifications and Experience Essential Criteria A PhD in physics, electrical engineering, biomedical
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Biotechnology and Bioprocesses, Membrane Technology, Chemicals and Materials, Resource Recovery, and Modeling & Artificial Intelligence. By harnessing its cross-cutting, interdisciplinary, and transformative
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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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learning strategies for various classes of materials. This PhD project will focus on dissipative material behaviors such as elastoplasticity, viscoelasticity, and related phenomena. Learning dissipative
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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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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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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | about 15 hours ago
researcher to investigate the role of blood vessel endothelial cells in liver growth and regeneration. The Azizoglu Lab lab focuses on vascular plasticity and dynamics during tissue growth and regeneration
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cortex. Neurobiology of Learning and Memory https://doi.org/10.1016/j.nlm.2021.107525 Defining the sensory neuron response to nerve injury Supervisors: Dr Greg Weir A PhD position is available 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