Manuel Feig scite author profile

ROBL-II provides four different experimental stations to investigate actinide and other alpha- and beta-emitting radionuclides at the new EBS storage ring of ESRF within an energy range of 3 to 35 keV. The XAFS station consists of a highly automatized, high sample throughput installation in a glovebox, to measure EXAFS and conventional XANES of samples routinely at temperatures down to 10 K, and with a detection limit in the sub-p.p.m. range. The XES station with its five bent-crystal analyzer, Johann-type setup with Rowland circles of 1.0 and 0.5 m radii provides high-energy resolution fluorescence detection (HERFD) for XANES, XES, and RIXS measurements, covering both actinide L and M edges together with other elements accessible in the 3 to 20 keV energy range. The six-circle heavy duty goniometer of XRD-1 is equipped for both high-resolution powder diffraction as well as surface-sensitive CTR and RAXR techniques. Single crystal diffraction, powder diffraction with high temporal resolution, as well as X-ray tomography experiments can be performed at a Pilatus 2M detector stage (XRD-2). Elaborate radioprotection features enable a safe and easy exchange of samples between the four different stations to allow the combination of several methods for an unprecedented level of information on radioactive samples for both fundamental and applied actinide and environmental research.

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Crystal structure, chemical bonding, and electrical and thermal transport in Sc₅Rh₆Sn₁₈

Feig

Akselrud

Schnelle

et al. 2020

Dalton Trans.

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Single crystals of Sc 5 Rh 6 Sn 18 were grown from Sn-flux. The crystal structure (SG: I4 1 /acd, a = 13.5529(2) Å, c = 27.0976(7) Å) was studied by high-resolution X-ray diffraction on powder and single crystal material as well as by TEM. All methods confirm it to crystallize with Sc 5 Ir 6 Sn 18 (space group I4 1 /acd) type of structure. The performed structural studies suggest also the presence of local domains with broken average translational symmetry. Analysis of the chemical bonding situation reveal highly polar Sc2-Sn1, Sn-Rh and Sc2-Rh bonds, two-and three-center bonds involving Sn-atoms as well as ionic nature of Sc1 bonding. The thermopower of Sc 5 Rh 6 Sn 18 is isotropic, small and negative (i.e. dominance of electron-like charge carriers). Due to structural disorder, the thermal conductivity is lowered in comparison with regular metallic systems.

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Anisotropic superconductivity and quantum oscillations in the layered dichalcogenide TaSnS2

et al. 2020

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Manuel Feig

ROBL-II at ESRF: a synchrotron toolbox for actinide research

Crystal structure, chemical bonding, and electrical and thermal transport in Sc₅Rh₆Sn₁₈

Anisotropic superconductivity and quantum oscillations in the layered dichalcogenide TaSnS2

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Manuel Feig

ROBL-II at ESRF: a synchrotron toolbox for actinide research

Crystal structure, chemical bonding, and electrical and thermal transport in Sc5Rh6Sn18

Anisotropic superconductivity and quantum oscillations in the layered dichalcogenide TaSnS2

Contact Info

Product

Resources

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Crystal structure, chemical bonding, and electrical and thermal transport in Sc₅Rh₆Sn₁₈