Publication | Closed Access
Bi<sub>2</sub>Te<sub>3</sub>-based wearable thermoelectric generator with high power density: from structure design to application
27
Citations
36
References
2022
Year
EngineeringEnergy EfficiencyCopper FilmHigh Power DensityThermoelectricsWearable Thermoelectric GeneratorRefrigerationThermal InsulationOptimized TegSkin EndThermal AnalysisStructure DesignThermodynamicsThermal ModelingMaterials EngineeringMaterials ScienceElectrical EngineeringEnergy HarvestingWearable ElectronicsHeat TransferApplied PhysicsThermal ManagementThermoelectric MaterialTechnologyThermal EngineeringFunctional MaterialsEnergy Conversion Materials
For the optimized TEG, heat collection with a copper film at the skin end and a copper foam heat sink at the air end were installed to improve the power generation performance of the TEG. When the wearer is running outdoors, the power density is 138.46 μW cm −2 .
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