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, comparative, and synthetic genomics approached from a mechanistic angle Quantitative and integrative methods combining high-resolution imaging, functional genomics, single-molecule biophysics, and computational
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. Interested candidates may want to take a look at our recent work on machine learning molecular dynamics: https://www.nature.com/articles/s41467-024-52491-3 Project 2: Non-adiabatic Molecular Dynamics
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molecules, nucleic acids and peptide therapeutics. Design, prepare and characterize nanoparticles. Employ state-of-the-art techniques to assess the physicochemical properties of nanoparticles, ensuring
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employed in various experiments in labs at MPI and the University of Aarhus, with the goal of developing novel experimental techniques to perform spectroscopy on single molecules which are relevant
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Science Education. The molecular plasmonics group develops plasmonic and nanophotonic biosensors with single-molecule sensitivity. The team is multidisciplinary and hosts physicists, chemists, and
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complexity involving single cell and spatial profiling technologies - Implements, maintains, and applies the best practices in large-scale data management - Implements analysis tools/pipelines and interprets
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and the preservation of scientific rigor in research studies. Support if required, the development of proposals for research funding. Application Procedure: Applications must be sent using a single
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an Associate Researcher to join a project aimed at identifying new target molecules (receptors) on leukemia stem cells, characterizing their function, and developing antibodies directed against these targets
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for brain cancer and neurodegenerative diseases. Duties and Responsibilities: Design and develop small molecules, nucleic acids and peptide therapeutics. Design, prepare and characterize nanoparticles. Employ
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scattering (SERS) and infrared (IR) spectroscopy will be employed to probe vibrational signatures, revealing structural changes and interactions at the single-molecule level [1-5]. A significant aspect of the