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Strain-induced van der Waals gaps in GeTe revealed by in situ nanobeam diffraction

Yong Yu, Lin Xie, Stephen J. Pennycook, Michel Bosman, Jiaqing He

2022Science Advances33 citationsDOIOpen Access PDF

Abstract

Ordered germanium vacancies in germanium telluride thermoelectric material are called van der Waals (vdW) gaps, and they are beneficial for the thermoelectric performance of the material. The vdW gaps have been observed by atomic resolution scanning transmission electron microscopy, but their origin remains unclear, which prevents their extensive application in other materials systems. Here, we report that the occurrence of vdW gaps in germanium telluride is mainly driven by strain from the cubic-to-rhombohedral martensitic transition. Direct strain and structural evidence are given here by in situ nanobeam diffraction and in situ transmission electron microscopy observation. Dislocation theory is used to discuss the origin of vdW gaps. Our work here paves the way for self-assembling two-dimensional ordered vacancies, which establishes a previously unidentified degree of freedom to adjust their electronic and thermal properties.

Topics & Concepts

van der Waals forceGermaniumMaterials scienceCondensed matter physicsTransmission electron microscopyDislocationThermoelectric effectCrystallographySuperlatticeDiffractionNanotechnologyChemical physicsOptoelectronicsOpticsChemistryPhysicsThermodynamicsSiliconOrganic chemistryMoleculeAdvanced Thermoelectric Materials and Devices2D Materials and ApplicationsChalcogenide Semiconductor Thin Films
Strain-induced van der Waals gaps in GeTe revealed by in situ nanobeam diffraction | Litcius