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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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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
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model at Lund to investigate mechanisms for the effect from ice nucleating aerosols on clouds and climate. Focus will be given to impacts on cloud properties and extent, which affect the Earth’s