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experimental design, identify technical challenges, and contribute to project planning and feasibility assessments. • Conduct polymer synthesis and perform comprehensive material characterization using
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of PAEK (Polyaryletherketone) and PEKK (Polyetherketoneketone) polymers, and their composites with carbon fibre, using the CFAM platform. Forming Process Optimisation: Systematically exploring and
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-scale/physics (in situ/operando)characterization of functional materials (polymers, salts, ionic liquids, catalysts, ceramics) intended for energetic systems (batteries, fuel cells, and solar cells
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, glycopolymers, and glycomaterials) involved in biological processes and health, to bio-based materials. Website: https://cermav.cnrs.fr The successful candidate will have access to all the resources available
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Application Deadline: 30 April 2026 Details The polymer crystallisation process is critical not only to the manufacturing of many thermoplastics in determining their mechanical and other physical properties
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externally funded, convergence research at the intersection of polymer chemistry, surface science, sensor technologies, environmental engineering, with Omics-driven approaches for materials discovery. This is
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communication skills in English Experience in working with polymer melt processing and rheology Experience in using and analysing data from laboratory equipment such as, rheometers, tensile testers and other
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, and processes for applications related to energy, the environment, and health. The laboratory is located within the European School of Chemistry, Polymers and Materials of Strasbourg (ECPM
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sustainability. We develop functional fiber materials with specific photonic and electronic properties by polymer molecular engineering and fiber structure design. Together with advanced textile technology
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framework for the modeling of polymer nanocomposites under nonlinear elasticity at large deformations. The microstructure will be explicitly described at the microscopic scale through nonlinear micromechanics