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team that focuses on materials for classical microelectronic interfaces and quantum information science. The group actively interacts with the broader Argonne and UChicago community of scientists as
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Conduct electrode structure-property correlation studies using in situ and operando methods such as surface Raman spectroscopy and synchrotron X-ray based scattering and absorption spectroscopy methods, in
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harness the nonequilibrium correlation between structural, charge, and spin/pseudospin degrees of freedom in two-dimensional (2D) materials. The success of this program will lead to new means to control
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supervisor. The project focuses on the synthesis, characterization of physical and chemical structures, and electrochemical evaluation of sulfur cathodes in both coin and pouch cells. The candidate will
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. These instruments and techniques support APS user programs and beamline scientists working in materials science, geology, and biology. The brain is among the most complex structures known, containing over 89 billion
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quantum mechanical calculations (e.g., first principles density functional theory (DFT)) to identify the structures and to understand the complex mechanisms of molecular reactions occurring at the surface
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performs world-leading research in nuclear structure, nuclear astrophysics, fundamental symmetries, and nuclear data. The Group also manages and operates world-class detector systems as part of the ATLAS
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, clustering techniques etc.) Preferred skills in: Data analysis and/or scientific visualization (e.g. feature detection and tracking of high-level structures, classification, statistical summaries, comparisons
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The Interfacial Processes Group of the Chemical Sciences and Engineering Division is seeking a Postdoctoral Appointee. The successful candidate will perform research on the structure and reactivity
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The Materials Science Division at Argonne National Laboratory is hiring a postdoctoral appointee for investigating ion transport as a function of material structure and extent of hydration in