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The Nanoscale Magnetic and Electronic Heterostructure Group of the Materials Science Division (MSD) invites applications for a Postdoctoral position focused on Lorentz Transmission Electron
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-traditional support materials • Investigate how the stereoelectronic properties of the catalytic surface and/or external stimuli manipulate catalyst electronic properties, and how these factors can manipulate
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, especially surface holography, and their application to elucidate the spatiotemporal structure of nanostructures at surfaces and interfaces. The coherence-based probes will align with the capabilities promised
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from academia, national laboratories and industry on advanced synchrotron X-ray, electron microscopy characterization, interfacial analysis, and full-cell prototyping. Position Requirements Recent
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science Considerable knowledge of probing interfacial reactivity through in-situ and operando approaches. This can include synchrotron-based x-ray scattering techniques to probe structure and reactivity
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Investigate how dynamic stimuli manipulate catalyst electronic properties, and how these stimuli can manipulate catalytic elementary steps and reaction outcomes Perform detailed in situ / operando studies
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in computational research Comprehensive understanding of quantum mechanics and electronic structure theory is critical Experience with CFD (e.g., the use of OpenFoam or ALDFoam) and microkinetic
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functional assemblies at transparent and electrically conductive interfaces. We will also leveraging recent advances in vapor phase infiltration synthesis that enable electronic and atomic structures
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. The Macroeconomist will consider economic factors, such as costs, pricing structures, market trends, and free trade agreements and other regulatory compliance measures, to understand the international flows
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for such models include high-resolution 3D imaging, time-resolved materials characterization, and atomic structure determination. Scientific instrument data is often multimodal in nature and developing DL models