Sr2Pt8−x As: a layered incommensurately modulated metal with saturated resistivity

Author:

Martino EdoardoORCID,Arakcheeva AllaORCID,Autès Gabriel,Pisoni AndreaORCID,Bachmann Maja D.ORCID,Modic Kimberly A.ORCID,Helm ToniORCID,Yazyev Oleg V.,Moll Philip J. W.ORCID,Forró László,Katrych SergiyORCID

Abstract

The high-pressure synthesis and incommensurately modulated structure are reported for the new compound Sr2Pt8−x As, with x = 0.715 (5). The structure consists of Sr2Pt3As layers alternating with Pt-only corrugated grids. Ab initio calculations predict a metallic character with a dominant role of the Pt d electrons. The electrical resistivity (ρ) and Seebeck coefficient confirm the metallic character, but surprisingly, ρ showed a near-flat temperature dependence. This observation fits the description of the Mooij correlation for electrical resistivity in disordered metals, originally developed for statistically distributed point defects. The discussed material has a long-range crystallographic order, but the high concentration of Pt vacancies, incommensurately ordered, strongly influences the electronic conduction properties. This result extends the range of validity of the Mooij correlation to long-range ordered incommensurately modulated vacancies. Motivated by the layered structure, the resistivity anisotropy was measured in a focused-ion-beam micro-fabricated well oriented single crystal. A low resistivity anisotropy indicates that the layers are electrically coupled and conduction channels along different directions are intermixed.

Funder

Swiss National Science Foundation through its SINERGIA network MPBH and NCCR Marvel

Publisher

International Union of Crystallography (IUCr)

Subject

Condensed Matter Physics,General Materials Science,Biochemistry,General Chemistry

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