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Graphene/Strontium Titanate: Approaching Single Crystal–Like Charge Transport in Polycrystalline Oxide Perovskite Nanocomposites through Grain Boundary Engineering

Yue Lin, Maxwell Dylla, Jimmy Jiahong Kuo, James P. Male, Ian A. Kinloch, Robert Freer, G. Jeffrey Snyder

2020Advanced Functional Materials54 citationsDOIOpen Access PDF

Abstract

Abstract Grain boundaries critically limit the electronic performance of oxide perovskites. These interfaces lower the carrier mobilities of polycrystalline materials by several orders of magnitude compared to single crystals. Despite extensive effort, improving the mobility of polycrystalline materials (to meet the performance of single crystals) is still a severe challenge. In this work, the grain boundary effect is eliminated in perovskite strontium titanate (STO) by incorporating graphene into the polycrystalline microstructure. An effective mass model provides strong evidence that polycrystalline graphene/strontium titanate (G/STO) nanocomposites approach single crystal‐like charge transport. This phenomenological model reduces the complexity of analyzing charge transport properties so that a quantitative comparison can be made between the nanocomposites and STO single crystals. In other related works, graphene composites also optimize the thermal transport properties of thermoelectric materials. Therefore, decorating grain boundaries with graphene appears to be a robust strategy to achieve “phonon glass–electron crystal” behavior in oxide perovskites.

Topics & Concepts

Materials scienceStrontium titanateGrapheneGrain boundaryCrystalliteOxidePerovskite (structure)Charge carrierNanocompositeCondensed matter physicsThermoelectric effectCrystal (programming language)NanotechnologyMicrostructureChemical physicsComposite materialChemical engineeringThin filmOptoelectronicsMetallurgyThermodynamicsPhysicsProgramming languageComputer scienceEngineeringPerovskite Materials and ApplicationsAdvanced Thermoelectric Materials and DevicesFerroelectric and Piezoelectric Materials
Graphene/Strontium Titanate: Approaching Single Crystal–Like Charge Transport in Polycrystalline Oxide Perovskite Nanocomposites through Grain Boundary Engineering | Litcius