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Stacking Polymorphism in PtSe<sub>2</sub> Drastically Affects Its Electromechanical Properties

Roman Kempt, Sebastian Lukas, Oliver Hartwig, Maximilian Prechtl, Agnieszka Kuc, Thomas Brumme, Sha Li, Daniel Neumaier, Max C. Lemme, Georg S. Duesberg, Thomas Heine

2022Advanced Science16 citationsDOIOpen Access PDF

Abstract

is one of the most promising materials for the next generation of piezoresistive sensors. However, the large-scale synthesis of homogeneous thin films with reproducible electromechanical properties is challenging due to polycrystallinity. It is shown that stacking phases other than the 1T phase become thermodynamically available at elevated temperatures that are common during synthesis. It is shown that these phases can make up a significant fraction in a polycrystalline thin film and discuss methods to characterize them, including their Seebeck coefficients. Lastly, their gauge factors, which vary strongly and heavily impact the performance of a nanoelectromechanical device are estimated.

Topics & Concepts

StackingPiezoresistive effectCrystalliteMaterials scienceHomogeneousSeebeck coefficientThermoelectric effectThin filmPolymorphism (computer science)NanotechnologyOptoelectronicsComposite materialChemistryPhysicsThermodynamicsNuclear magnetic resonanceThermal conductivityBiochemistryMetallurgyGeneGenotype2D Materials and ApplicationsAdvanced Thermoelectric Materials and DevicesMXene and MAX Phase Materials
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