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activities: · Understanding/simulating the diffusion paths and cavitation in thermoplastic liners. · Multi-physics simulation of the diffusion process in thermoplastic orthotropic composites
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Description Advertised Job Summary We are seeking a highly motivated postdoctoral researcher to join our interdisciplinary team focused on developing polymers forantimicrobial applications. The successful
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focuses on the development and optimization of polymer-based excipients for bacteriophage stabilization, addressing a critical challenge in the storage, transport, and application of phages in medicine
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | about 9 hours ago
analyzing molecular dynamics (MD) simulations to understand water and solute transport through highly crosslinked polyamide systems. The postdoctoral researcher will study polymer chemistry, crosslinking
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) and Computational Fluid Dynamics (CFD), for polymer composite manufacturing processes Perform multi-physics simulations involving coupled thermal, mechanical, and material behavior across multiple
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on the physical chemistry and 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
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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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. These materials can be ceramics or polymers. The material chosen in this study is commercial PZT ceramics. To efficiently use the available mechanical energy in tires and induce strain in
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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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harvesting is the piezoelectric effect. Materials which show piezoelectric properties transform strain variation into electrical charge. These materials can be ceramics or polymers. The material chosen in