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scientific opportunities related to investigations of minerals and compounds in situ at extreme conditions, using high-resolution x-ray diffraction, computed tomography and x-ray spectroscopy techniques in
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the molten salt NaAlCl4 electrolyte chemistry by among others in situ Raman probe spectroscopy to investigate spatially resolved compositional changes during charging/discharging of the battery, and
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engineer will contribute to the development, optimization, and operation of advanced microscopy devices, notably High-speed AFM and AFM-IR (atomic force microscopy coupled with infrared spectroscopy) and
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(including cyclic voltammetry, galvanostatic charge–discharge, and electrochemical impedance spectroscopy), electrode preparation, and aging tests (long-term cycling stability). Familiarity with risk
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experiments to understand nitrogen reduction to ammonia on nanodiamonds, including impedance spectroscopy and an electrochemical quartz microbalance. You will characterize the electrocatalyst material using
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) spectroscopy, microwave measurements of spin dynamics, magneto-optical methods, and nanoscale device characterization). Co-development of software solutions for automated experiments and data analysis
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tasks are to probe the molten salt NaAlCl4 electrolyte chemistry by among others _in situ _Raman probe spectroscopy to investigate spatially resolved compositional changes during charging/discharging
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. Description: The Postdoctoral Fellow will work with a team of world-class collaborators on the JWST Cycle 1 GO Program 2512 (https://www.stsci.edu/jwst/science-execution/program-information.html?id=2512
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. The ideal candidate has broad knowledge within chemistry and physics with courses in physical chemistry, optical spectroscopy and materials chemistry in the curriculum. We especially welcome applicants
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. Playford, H.Y., Ravel, B., Levin, I., “Incommensurate modulation and competing ferroelectric/antiferroelectric modes in tetragonal tungsten bronzes,” Chem. Mater., https://doi.org/10.1021/acs.chemmater