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electron transfer (PCET) and photoredox catalysis. The goal is to understand and exploit multi-site concerted electron-proton transfer (MS-CEPT) mechanisms to selectively activate thermodynamically
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scaffold structures using additive manufacturing; enhance mechanical properties through crosslinking or other mechanical reinforcement strategies. Goal 3: Introduce antimicrobial properties into scaffolds by
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. The project will also evaluate in vivo biodistribution and on/off-target effects. Project 2: In this lung-oriented project we aim to improve the understanding of localization and absorption mechanisms of ONs
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rare earth elements, as well as synthesis and characterization of new magnetic materials. The work is supervised by Professor Martin Sahlberg within the Inorganic Chemistry research program at
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Chemistry (experimental/computational physical chemistry) -Transition metal photocatalysts studied by femtosecond X-ray science with a focus on hybrid experimental/machine-learned structural dynamic analyses
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microenvironments associated with pathological conditions, including bacterial infections and tumor-like ECM; and evaluating related therapeutic interventions. Evaluate the biocompatibility and mechanical properties
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. The candidate is expected to collaborate extensively with clinical experts at the other sites, with the ultimately goal of uncovering mechanisms underlying breast cancer and translating these insights