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, multi-energy grids, and the integration of renewable energy and storage systems Your tasks In the framework of MSCA Doctoral Network (DN) Consumer Energy Demand Flexibility in Electricity Use (CoDEF
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imperative to develop alternative highly efficient treatments and improve wound management. In the Wound Booster initiative, we will design a precision, self-care integrated system to completely understand
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for integrated carbon capture and conversion technologies. Your tasks Synthesize and characterize materials for heterogeneous catalysis applications Develop synthesis-structure-properties relationships to optimize
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and to evaluate the impact of clothing. Your tasks This PhD project aims to advance further in the field of heat stress prediction by combining sensing with textile-integrated physical sensors and
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of catalysts, to help transform CO2 into valuable hydrocarbons. The work is part of a broader initiative aimed at advancing materials for integrated carbon capture and conversion technologies. PhD
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nanostructures. Design and Integrate the nanomaterials in polymeric matrices for the dental splint coatings. Conduct morphological, structural, and functional characterizations. Conduct antibacterial and antiviral
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, called Wound Booster focused on the design of a self-care integrated system to completely understand, simulate and monitor skin wound evolution, with the ultimate aim to treat and prevent chronic wounds