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Project Title: Data-Driven Optimization of PtAg Hollow Nanocrystals Synthesis Group:Inorganic Nanoparticles Group, ICN2 Supervisor: Dr. Muriel Freixanet / Dr. Neus G. Bastús Description of the Group
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project, this could be your opportunity. Main Tasks and responsibilities: To develop and optimize the biosensor analytical performances. This includes design and assessment of surface chemistry and
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research institutes (UPC) and other companies (Futurechromes SL). New patents are expected to come out from the project. The project involves: - the optimization and preparation of polymer nanoparticles
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development and optimization (specially Zn-based) Device and electrode engineering and their design. Preparation of nanomaterials (inorganic and/or organic) Characterization techniques for nanomaterials
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optimize reliability and performance. Conduct user training across various nanofabrication areas. Supervise laboratory activities, ensuring that students and research staff use the equipment properly and
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chemical contaminants. -Surface engineering: Application and optimization of different deposition approaches (e.g., dip-coating, spraying) to integrate the developed coatings onto commercial filtration
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valuable insights to help optimize device performance. Additionally, you will support collaborators by assisting with in-situ TEM measurements, facilitating cutting-edge research in sustainability and energy
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, optimize, and document acquisition protocols for reproducibility and scalability; stay updated with the latest developments in microscopy automation and scientific instrumentation. Requirements: · Education
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are expected to come out from the project. The project involves: - the optimization of the formation of biocompatible nanocapsules loaded with active materials, - Morphological and structural characterization
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interface between ESM and the latest version of SIESTA, its validation, its benchmarking, and its exploitation in scientific applications. Work will also involve the optimization of SIESTA on the fastest and