Litcius/Paper detail

Tuneable local order in thermoelectric crystals

Nikolaj Roth, Jonas Beyer, Karl F. F. Fischer, Kaiyang Xia, Tiejun Zhu, Bo B. Iversen

2021IUCrJ23 citationsDOIOpen Access PDF

Abstract

Although crystalline solids are characterized by their periodic structures, some are only periodic on average and deviate on a local scale. Such disordered crystals with distinct local structures have unique properties arising from both collective and localized behaviour. Different local orderings can exist with identical average structures, making their differences hidden to Bragg diffraction methods. Using high-quality single-crystal X-ray diffuse scattering the local order in thermoelectric half-Heusler Nb 1− x CoSb is investigated, for which different local orderings are observed. It is shown that the vacancy distribution follows a vacancy repulsion model and the crystal composition is found always to be close to x = 1/6 irrespective of nominal sample composition. However, the specific synthesis method controls the local order and thereby the thermoelectric properties thus providing a new frontier for tuning material properties.

Topics & Concepts

Thermoelectric effectVacancy defectCrystal (programming language)Condensed matter physicsScatteringDiffractionMaterials scienceOrder (exchange)Bragg's lawLocal structureThermoelectric materialsPerfect crystalDistribution (mathematics)Crystal structureStatistical physicsSample (material)PhysicsLocal symmetryThermalLocal density of statesSeebeck coefficientAdvanced Thermoelectric Materials and DevicesHeusler alloys: electronic and magnetic propertiesTopological Materials and Phenomena