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condensates are dynamic, membraneless organelles formed through phase separation. Their material properties—fluidity, elasticity, and internal architecture—can shift dramatically in response to subtle
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material preparation, including weighing, dispensing, and documentation. Driving the scale‑up of manufacturing processes from lab to pilot or industrial scale. Preparing technical documentation and
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, catalysts, active absorbing layers, transport layers, membranes etc. Passive strategies will focus on the development of innovative ways to extract and purify critical raw materials from non-standard
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and Astroparticle Physics and Cosmology groups (https://www.ifae.es/groups/theory/ ). These include physics beyond the Standard Model, formal aspects of quantum field theories, gravitation, cosmology
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, experimental data bases and materials data bases together with novel AI tools. Where to apply Website https://auspire.eu/research-team/icn2-pf1-call-2/ Requirements Research FieldChemistryEducation LevelPhD
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inputs Reconstitution on a fluid lipid membrane to dissect the molecular mechanisms governing these interactions Potential translation into a new material with controlled function Preferred (but not
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. Incorporation of these species into polymer matrices to produce photoluminescent materials. Characterization of such materials and molecular species by nuclear magnetic resonance, infrared spectroscopy, and
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the interplay between low crystal symmetry and electrical properties. In particular, we will explore the non-linear effects of chiral materials and their rectifying properties at high frequencies. The project
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8 Jan 2026 Job Information Organisation/Company UNIVERSIDAD POLITECNICA DE MADRID Department HRS4R Research Field Technology » Materials technology Researcher Profile Recognised Researcher (R2
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properties. In particular, we will explore the non-linear effects of chiral materials and their rectifying properties at high frequencies. The project also foresees the integration of optimal working materials