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of materials. The main activities will include: – adapting the generative LegoXtal code to the design of MOF coordination polymers and porous materials by assembling elementary molecular bricks in the generation
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Materials for Next Generation of Pneumatic Tires, Structure-Process-Properties Relationships. Do you want to know more about LIST? Check our website: https://www.list.lu/ How will you contribute? LIST is
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our website: https://www.list.lu/ How will you contribute? LIST is seeking to recruit a two-year postdoctoral position to work on fabrication of the piezoelectric energy harvester based on ceramics
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materials science of organic semiconductors, polymer blends and composites, and develops new plastic materials for use in the fields of wearable electronics and energy technology. All research is conducted in
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between the polymer matrix and carbon nanotubes in nanocomposites. In the first phase, a critical review of the literature will be carried out on numerical and experimental methodologies used to investigate
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SEM, circular dichroism, FTIR and molecular dynamics simulations. Synthesis and characterization of nanostructures such as nanoparticles, nanofibers and hydrogels based on biopolymers, polymers and
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Ph.D. Position in Organic Chemistry, Polymer Chemistry, and/or Sol–Gel Chemistry & Materials Science
organic and/or polymer chemistry and an interest in porous polymer materials. While the position is primarily intended for a Ph.D. student, outstanding postdoctoral applicants with an exceptional fit
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candidates SDL4 - Polymers for materials science and biological applications SDL5 - Formulations for pharmaceuticals, consumer products, and coatings SDL6 - Biocompatibility with organoids / organ-on-a-chip
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to the viscoelastic behavior of polymeric foams under large deformations dynamic loadings. The objective is to simulate, using the finite element method, the response of these porous microstructures under complex
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behavior (e.g., ignition, burning rate, fire growth). Such predictions require accurate and efficient simulation of the tightly coupled, time-dependent condensed- and gas-phase processes that control