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the characterization and analysis of porous materials An excellent background in X-ray diffraction, electron diffraction, electron microscopy and related analytical techniques Open to learn new analytical tools, like
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. Conduct electrochemical characterization, including cyclic voltammetry, galvanostatic charge/discharge, and electrochemical impedance spectroscopy. Perform material characterization (X-ray diffraction
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synthesis procedures for the formation of porous materials and their organic linkers. Characterize structure and physical properties of materials and determine structure-property relationships with x-ray
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The recent upgrade of the Advanced Photon Source has introduced the world’s brightest synchrotron x-ray source. The X-ray Science Division (XSD) at Argonne National Laboratory invites applications
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Qualifications: A PhD in condensed matter physics, material science, computational science, or a related field. Preferred Qualifications: Basic understanding of x-ray or neutron scattering is desirable but not
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mesoscopic scale with a focus on X-ray and neutron diffraction as well as PDF analysis, supported by complementary experimental techniques or theoretical simulations Hands-on participation in experiments
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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
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analysis with X-ray and entron diffraction. Property characterisation using a physical property measurement system (PPMS) and a SQUID magnetometer (MPMS). Ab-initio DFT calculations for property predication
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-resolution studies. Professor Izard designed and installed a HighFlux X-ray diffraction system, specifically a Rigaku MicroMax-007 HF, a second-generation microfocus rotating anode generator together with a
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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