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environmentally-friendly hydraulics. The aim of this project is to improve the understanding and the ability of designing aqueous lubricants based on polymer solutions in water. The main objectives are to study the
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ventilation and perfusion for monitoring the inflammation and pulmonary agent delivery in animal models. The other objective will be to encapsulate drug of interest into nanoplatform for improve treatment
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Sorbonne Universite - Laboratoire de Chimie de la Matière Condensée de Paris (LCMCP) | Paris La Defense, le de France | France | 16 days ago
). To achieve this, a biofabrication strategy using natural polymer-based bioinks will be employed. This model will subsequently be used to study IVD degeneration by incorporating relevant biological and
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from a hydrophilic A block in water, a selective solvent for A. Conventional strategies for preparation of self-assembled polymer nanostructures involve synthesis of a diblock copolymer in a non
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have become a major challenge for understanding, recording, and modulating neuronal network activity, ranging from in vitro cellular models to implantable neurotechnological applications. In the long
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: 1116179 Position Summary Successful candidates are expected to work on molecular design and theoretical modeling of soft materials as well as their applications in healthcare and sustainability
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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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-healing polymers that will be exploited in this project in robotic phantoms. Moreover, the Soft Tissue Biomechanics (STB) research group of Katholieke Universiteit Leuven is connected in this project
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the nacre in seashells, by combining them with soft organic polymers. This project proposes a method to mimic this by using 3D-printed concrete as a scaffold to guide the growth of a chitinous fungal network
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., hydrogels, polymers, structured tissues), with applications in biomedical engineering, soft robotics, and more broadly in adaptive multiphysics systems. The developed models will be physically based and will