60.3

Tim Kohlmann

Martin Luther University Halle-Wittenberg

Tim Kohlmann's research has significantly contributed to the understanding of fibrillization processes, particularly with parathyroid-hormone peptides. Their studies on azo-switches as reversible and catalytic entities have modulated fibrillation rates, offering insights into potential therapeutic applications. Additionally, investigations into quercetin-derived antioxidants in micelles revealed the radicals' properties and behavior under various conditions. Kohlmann's work also focused on developing rapid methods for detecting cannabinoids in oils using HPLC-ESI-MS and exploring intramicellar reactions, equilibrium constants, and micelle size effects. Furthermore, their research employed laser-induced synthesis and fluorescence quenching to study protein topologies, shedding light on sustainable detoxification and macromolecular characterization.

Commercial signal 60.1
Scientific signal 63.1
Social signal 58.9
Papers 10
0 Patent-to-paper cites
92 Paper cites

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