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produced and will be derivatized with As/Sb oxyanions, in an attempt to capture reaction intermediates. Diffraction data will be collected in synchrotron laboratories (ESRF, DESY and ALBA (single proposals
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3D X-ray diffraction (3DXRD). Each of these in situ measurements are already available at specific synchrotron beamlines. However, they have never been applied on microbatteries or in a correlative
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based) materials; b) the preparation and development of mixed-matrix membranes (MMMs) or similar membranes; c) characterization of materials using, for example, X-ray diffraction, vibrational spectroscopy
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to investigate unconventional electron-phonon coupling effects in two-dimensional superconductors. The successful candidate will employ high-resolution Raman spectroscopy and X-ray diffraction
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transport measurements and point contact spectroscopy measurements, THz-Mueller Matrix Ellipsometry and advanced structural characterization (e.g. TEM, polarized neutron diffraction) as well as theoretical
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., NMR, EPR, X-ray diffraction, electrochemistry...). With a stimulating work environment gathering more than 70 researchers and 100 interns, PhD students and postdocs of different nationalities, research
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diffraction and X-ray photoelectron spectroscopy will also be employed. This project is part of a large Dutch research consortium, including academia and industry. Your work will be embedded in our group’s
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to explore the elastic tuning of collective states in Kagome quantum materials. The successful candidate will employ high-resolution X-ray diffraction in combination with electrical resistivity
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diffractometry, electron backscattered diffraction, transmission electron microscopy, and Raman spectroscopy. This is a hugely exciting project for an enthusiastic researcher who wishes to forge an academic
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well as inclusive and diffractive dijet or heavy-meson production in ultra-peripheral collisions. In addition, the project will involve the development of a dedicated numerical code to implement these calculations