Publication | Open Access
High thermoelectric performance in Bi<sub>0.46</sub>Sb<sub>1.54</sub>Te<sub>3</sub> nanostructured with ZnTe
375
Citations
41
References
2018
Year
Materials ScienceDefect ToleranceElectrical EngineeringMaterials EngineeringHigh Temperature MaterialsEngineeringDefect ComplexityNanoelectronicsConversion EfficiencyApplied PhysicsCondensed Matter PhysicsAlloy DesignThermoelectricsThermoelectric MaterialHigh Thermoelectric PerformanceMicroelectronicsMicrostructure
High performance BiSbTe alloy and modules with a conversion efficiency of 5% are achieved through integrating Zn induced defect complexity with nanostructuring.
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