Litcius/Paper detail

A record thermoelectric efficiency in tellurium-free modules for low-grade waste heat recovery

Zhonglin Bu, Xinyue Zhang, Yixin Hu, Zhiwei Chen, Siqi Lin, Wen Li, Chong Xiao, Yanzhong Pei

2022Nature Communications257 citationsDOIOpen Access PDF

Abstract

Abstract Low-grade heat accounts for >50% of the total dissipated heat sources in industries. An efficient recovery of low-grade heat into useful electricity not only reduces the consumption of fossil-fuels but also releases the subsequential environmental-crisis. Thermoelectricity offers an ideal solution, yet low-temperature efficient materials have continuously been limited to Bi 2 Te 3 -alloys since the discovery in 1950s. Scarcity of tellurium and the strong property anisotropy cause high-cost in both raw-materials and synthesis/processing. Here we demonstrate cheap polycrystalline antimonides for even more efficient thermoelectric waste-heat recovery within 600 K than conventional tellurides. This is enabled by a design of Ni/Fe/Mg 3 SbBi and Ni/Sb/CdSb contacts for both a prevention of chemical diffusion and a low interfacial resistivity, realizing a record and stable module efficiency at a temperature difference of 270 K. In addition, the raw-material cost to the output power ratio in this work is reduced to be only 1/15 of that of conventional Bi 2 Te 3 -modules.

Topics & Concepts

Thermoelectric generatorThermoelectric effectWaste heat recovery unitWork (physics)Waste heatThermoelectric materialsMaterials scienceProcess engineeringThermoelectric coolingElectricityElectricity generationHeat recovery ventilationIdeal (ethics)Environmental scienceWaste managementThermal conductivityIndiumThermal management of electronic devices and systemsScarcityCrystalliteNuclear engineeringTelluriumPower (physics)Energy conversion efficiencyDiffusionEngineering physicsThermal energy storageAdvanced Thermoelectric Materials and DevicesTopological Materials and PhenomenaHeusler alloys: electronic and magnetic properties