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JOURNAL ARTICLE

Superstructures and Superconductivity Linked with Pd Intercalation in Nb2PdxSe5

Jennifer NeuDavid GrafKaya WeiAlyssa GaiserYan XinYou LaiThomas E. Albrecht‐SchmittRyan BaumbachDavid J. SinghTheo Siegrist

Year: 2020 Journal:   Chemistry of Materials Vol: 32 (19)Pages: 8361-8366   Publisher: American Chemical Society
DOI: 10.1021/acs.chemmater.0c02291
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Abstract

Single crystals of Nb<sub>2</sub>Pd<sub>x</sub>Se<sub>5</sub> have been grown covering a broad range of palladium stoichiometries, from x = 0.68 to x = 0.95 (Pd2 occupancies 0.36 and 0.90 respectively). Miscibility gaps in the Pd stoichiometry range are related to superstructures resulting from staged filling and ordering of the partially filled Pd atom site (Pd2, Wyckoff site 2a). For Pd2 near 1/2 occupancy, a superstructure based on an incommensurate occupation wave with modulation along the monoclinic b-axis is identified. Here, a superconducting dome is found for Pd2 occupancies above 0.58, with maximum Tc for Pd2 occupancy of approximately 2/3. DFT calculations for the fully and 1/2 occupied Pd2 site show that Nb<sub>2</sub>Pd<sub>x</sub>Se<sub>5</sub> can be considered an intercalation compound for Pd2 occupancy above the minimum required for structural stability.

Keywords:
Superstructure Palladium Superconductivity Stoichiometry Monoclinic crystal system Crystallography Intercalation (chemistry) Materials science Chemistry Miscibility Condensed matter physics Crystal structure Inorganic chemistry Physical chemistry Thermodynamics Physics Catalysis

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Citation History

Topics

Iron-based superconductors research
Physical Sciences →  Materials Science →  Electronic, Optical and Magnetic Materials
Physics of Superconductivity and Magnetism
Physical Sciences →  Physics and Astronomy →  Condensed Matter Physics
Rare-earth and actinide compounds
Physical Sciences →  Physics and Astronomy →  Condensed Matter Physics

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