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. More information about us, please visit: Department of Chemistry . Subject area Multicatalysis with Metal-Organic Frameworks Supervision: Assistant Professor Miguel Rivero-Crespo A PhD position is
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transition metal dichalcogenides (TMDs), has gained significant attention over the past few decades for their use in optoelectronics. Despite this interest, the photophysical properties of these materials and
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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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in TS coatings? How could co-deposition and infiltration techniques be effectively utilised to incorporate solid lubricants in TS wear resistant coatings? How do wear behaviour & degradation mechanisms
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. More information about us, please visit: Department of Chemistry . Project description Title: Metal-organic frameworks pioneered by advanced electron microscopy Supervisor: Assoc. Prof. Tom Willhammar
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by missed cancers and false positives. To address limitations, we have developed a prototype DBTMI system. DBTMI stands for "simultaneous digital breast tomosynthesis (DBT) and "mechanical imaging" (MI
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applications and to better understand disease mechanisms. We also work with mammalian cell line development, where systems biology, OMICS methods, and CRISPR/Cas9 are important tools. Supervision: Johan Rockberg
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of genetics in improving the understanding of underlying biological mechanisms. The work is expected to contribute to the development of improved methods for risk assessment of hazardous chemicals. SELMA is
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The project focuses on using magneto-ionic elements as a method of tuning magnetism, creating an indirect coupling between an applied voltage and the magnetic properties and allowing
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exposure to environmental chemicals and the role of genetics in improving the understanding of underlying biological mechanisms. The work is expected to contribute to the development of improved methods