Publication | Closed Access
Largely enhanced thermoelectric performance in p-type Bi<sub>2</sub>Te<sub>3</sub>-based materials through entropy engineering
69
Citations
29
References
2023
Year
EngineeringThermoelectricsMaximum Conversion EfficiencyThermal ConductivityFerroelectric ApplicationThermodynamicsMaterials EngineeringMaterials ScienceSemiconductor MaterialEntropy EngineeringPyroelectricityEnhanced Thermoelectric PerformanceElectronic MaterialsCondensed Matter PhysicsApplied PhysicsThermoelectric MaterialTe 3Functional MaterialsBi 2
Entropy optimized Bi 2 Te 3 based materials achieved a high thermoelectric performance with a figure of merit of 1.7 at 450 K and a maximum conversion efficiency of 8% with a temperature gradient of 225 K.
| Year | Citations | |
|---|---|---|
Page 1
Page 1