Publication | Closed Access
Achieving high thermoelectric performance through constructing coherent interfaces and building interface potential barriers in n-type Bi<sub>2</sub>Te<sub>3</sub>/Bi<sub>2</sub>Te<sub>2.7</sub>Se<sub>0.3</sub> nanocomposites
73
Citations
36
References
2019
Year
Materials ScienceEngineeringElectronic MaterialsInorganic MaterialNanomaterialsNanotechnologyApplied PhysicsCondensed Matter PhysicsCoherent InterfacesThermoelectricsSolid-state ChemistryThermoelectric MaterialNanostructure SynthesisChemistryHigh Thermoelectric PerformanceNanocrystalline MaterialFunctional MaterialsThermal Conductivity
Through incorporation of isostructural Bi<sub>2</sub>Te<sub>3</sub> nanoinclusions in n-type Bi<sub>2</sub>Te<sub>2.7</sub>Se<sub>0.3</sub> we achieve unprecedented energy-conversion efficiency <italic>η</italic> = 10.5% with record high <italic>ZT</italic><sub>max</sub> = 1.35.
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