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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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, including adsorption and catalysis. MOFs consist of metal nodes connected by organic linker molecules, forming crystalline frameworks with well-defined pore systems and versatile chemistry, as recognized by
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, materials science and catalysis. Sustainability will be one of the main pillars of the project. In particular, the aim to develop more efficient catalysts, minimizing the use of energy, resources and
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the toolbox of modern synthetic methods. The resulting methodologies find immediate applications in medicinal chemistry, materials science, and catalysis. Aligned with Stockholm University’s commitment
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, Linnaeus University. Our research focuses on the development of functional materials and their application in diagnostic and thereapeutic contexts, and for chemical catalysis. We are seeking a highly