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time-resolved hard X-ray diffraction microscopy and spectroscopy on single-crystalline bulk and thin film quantum materials (e.g. ferroelectrics, multiferroics, strongly correlated electron systems
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synchrotron X-ray scattering data, including X-ray diffraction and total scattering measurements. The research will emphasize extracting physically meaningful descriptors from complex scattering datasets and
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structure determination with x-ray diffraction/scattering/spectroscopy, transport and magnetic property characterization using Quantum Design's MPMS/PPMS and dilution refrigerators. * For 2D materials
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are expected; experience in use of beam-time at synchrotrons or reactors is preferred . Familiarity with solution growth of single crystals, single crystal and powder x-ray diffraction, as well as measurements
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key photovoltaic characterization techniques such as J-V measurement, maximum power point tracking, and X-ray diffraction; strong experimental troubleshooting, analytical, and scientific writing skills
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diffraction (XRD) and X-ray spectroscopy, particularly for in situ/operando studies of materials and interfacial chemistry during battery cycling Strong understanding of electrochemistry, with the ability
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scattering, neutron scattering, photoelectron spectroscopy, etc. * Experience with lab-standard sample characterization techniques and related equipment (transport measurements, single crystal diffraction
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, Physics or Applied Physics Required Experience: Strong background in TEM/STEM characterization. Desired Experience: Experience with EELS, diffraction contrast, 4D-STEM/ptychography. Familiarity with data
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, and electrochemical impedance spectroscopy. An understanding of bulk and thin film materials characterization techniques such as X-ray diffraction, X-ray photoelectron spectroscopy, spectroscopic
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techniques including terahertz, optical, and x-ray radiation. Candidates with a strong background in quantum materials, ultrafast lasers, and synchrotron or FEL-based x-ray diffraction techniques are highly