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, understanding degradation mechanisms, and improving electrochemical performance. The postdoc will work with state-of-the-art facilities for materials synthesis, structural and electrochemical characterization
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degradation mechanisms, and improving electrochemical performance. The postdoc will work with state-of-the-art facilities for materials synthesis, structural and electrochemical characterization, and in-depth
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Max Planck Institute for Multidisciplinary Sciences, Göttingen | Gottingen, Niedersachsen | Germany | about 4 hours ago
. With more than 40 research groups and some 1,000 employees from over 50 nations, it is the largest institute of the Max Planck Society . The Research Group Computational Biomolecular Dynamics (Prof. Dr
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Postdoctoral Research Associate in Sum-Frequency Generation Microscopy of Biomolecular Self-Assembly
the institute focusses on the structure and dynamics of elementary processes in solids and at surfaces. Within this broader research theme, the Nonlinear Chemical Imaging (NCI) group of Dr. Alexander Fellows
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. Ready to be part of our team? Welcome aboard! Your personal sphere of play: The group of Prof. Backus at the Institute of Physical Chemistry studies structure and dynamics of molecular processes. We apply
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Job Description Job Responsibilities -Conduct molecular dynamic (MD) simulations of the interactions of biological toxins including alpha-toxin, pyocyanin, and pyoverdine with clay natural and modified
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on their thermophysical properties and compatibility with heat transfer fluids. Investigate the thermodynamics and interfacial structure-property relationships of materials intended for thermal energy storage to deepen
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funded. The successful applicant will work in Professor Carlos Argüelles’ group on the development, construction, and deployment of TAMBO Phase 1. Candidates with strong expertise in data acquisition
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developing formalisms for their interpretation (GMC structure, dynamical state, lifetime, formation, evolution), and/or ii) weighing the supermassive black holes lurking at galaxy centres using molecular gas
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developing formalisms for their interpretation (GMC structure, dynamical state, lifetime, formation, evolution), and/or ii) weighing the supermassive black holes lurking at galaxy centres using molecular gas