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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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such as microelectronics and self-assembly of nanocomposites. Therefore, we seek highly motivated candidates to drive the project independently while interacting closely with senior members of the research
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absorption and emission spectroscopy—the role aims to probe both electronic and nuclear dynamics occurring on femtosecond to nanosecond timescales in photoexcited molecules and materials. The postdoctoral
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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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for someone passionate about advancing the integration of inverter-based resources into the power grid. The selected candidate will be involved in developing power electronics and hardware in the loop
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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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for holotomography and to perform dynamic experiments using the Projection X-ray Microscope (PXM) instrument for studying microelectronics. As part of a collaborative team, the successful candidate will participate in
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the electronic, magnetic, and optical properties of 2D materials at ultrafast timescales, which holds promises for developing new energy technologies. The candidate is responsible for conceiving, planning, and
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detector projects at Jefferson Lab and towards the Electron-Ion Collider, with some flexibility to pursue your own research interests. We seek candidates with a background in experimental nuclear or high
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. Experience using analytical tools, such as particle size analyzer, X-Ray diffraction, electron microscopy (SEM and TEM), spectroscopy (FTIR and Raman), surface area analysis, and electrochemical (EIS and RDE