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Field
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diffraction, spectroscopy, thermodynamics, or electron microscopy as well as knowledge of basic programming are meritorious. Consideration will also be given to good cooperation skills, drive and independence
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unknown. You will carry out in-situ cooling/deformation experiments of as-manufactured and irradiated steel specimens using High-Energy Synchrotron X-ray Diffraction (HE-SXRD) in transmission mode
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-ray diffraction (XRD) to study the materials at the micro and as well as access to national and international facilities for example synchrotron based experiments. Applicants should have, or expect
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a range of characterization techniques, including X-ray diffraction, electron microscopy, X-ray photoelectron spectroscopy, as well as various electrochemical measurements, with opportunities
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metasurface pixels are patches filled with 2D arrays of scatterers (‘meta-atoms’) precisely tailored for diffractive outcoupling and wavefront shaping at the same time. Each metasurface pixel receives light
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experience in a diverse range of areas including: materials chemistry, nanoporous materials, materials’ synthesis, ex-situ and in-situ atomic force microscopy, powder and single crystal X-ray diffraction
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fabrication. Receive individual trainings in state-of-the-art methodology, comprising pulsed laser deposition (PLD), atomic force microscopy (AFM), advanced X-ray diffraction (XRD), and transport measurements
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structure itself. We will quantify these features and engineer biochar with enhanced long-term carbon stability using techniques including Raman spectroscopy, X-ray diffraction (XRD), solid-state ¹³C NMR
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such as X-ray diffraction (XRD) to characterize, at the molecular level, smectite samples from various Swedish mineral deposits. The PhD student will develop, apply, and combine theoretical molecular
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films, and nanostructures, such as scanning tunneling microscopy (STM), photoelectron spectroscopy (XPS), electron diffraction methods (LEED, RHEED), optical vibrational spectroscopies (IRRAS, DRIFTS