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- “Customized cellulose-based supported ionic liquids as new superhydrophobic materials for health and environmental applications” - COMPETE2030-FEDER-00771100, supported by the Operational Program COMPETE2030
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technology. Develop and characterize cellulose-based biomaterials for cartilage tissue engineering. Integration of 3D engineered tissues with paper-based microfluidic devices to perform in-line monitoring of
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-mechanic, thermal, morphology of materials and functional properties such as antioxidant and antimicrobial. Work Plan: 1. Development of cellulosic material as films and foams 2. Functionalisation
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on the following points: a) Develop and characterize cellulose-based electrolytes that can be implemented in flexible batteries; b) To test the performance of batteries containing the electrolytes developed in a
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of polymeric materials. Desired Qualifications Experience with UV-curable coatings and materials, as well as cellulose nanomaterials (nanocrystals, nanofibers) is desired. Required Application Materials CV Cover
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restoration of historical cellulosic objects using nanocelluloses, data management, and dissemination, exploitation and communication. He/she will work closely to the PhD students, including in the laboratory
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porous materials How to apply: https://uom.link/pgr-apply No. of funded positions: 1 This 3.5 year PhD project is fully funded and open to home students. Tuition fees will be paid and you will receive