[HTML][HTML] Towards tellurium-free thermoelectric modules for power generation from low-grade heat

P Ying, R He, J Mao, Q Zhang, H Reith, J Sui… - Nature …, 2021 - nature.com
Nature communications, 2021nature.com
Thermoelectric technology converts heat into electricity directly and is a promising source of
clean electricity. Commercial thermoelectric modules have relied on Bi2Te3-based
compounds because of their unparalleled thermoelectric properties at temperatures
associated with low-grade heat (< 550 K). However, the scarcity of elemental Te greatly
limits the applicability of such modules. Here we report the performance of thermoelectric
modules assembled from Bi2Te3-substitute compounds, including p-type MgAgSb and n …
Abstract
Thermoelectric technology converts heat into electricity directly and is a promising source of clean electricity. Commercial thermoelectric modules have relied on Bi2Te3-based compounds because of their unparalleled thermoelectric properties at temperatures associated with low-grade heat (<550 K). However, the scarcity of elemental Te greatly limits the applicability of such modules. Here we report the performance of thermoelectric modules assembled from Bi2Te3-substitute compounds, including p-type MgAgSb and n-type Mg3(Sb,Bi)2, by using a simple, versatile, and thus scalable processing routine. For a temperature difference of ~250 K, whereas a single-stage module displayed a conversion efficiency of ~6.5%, a module using segmented n-type legs displayed a record efficiency of ~7.0% that is comparable to the state-of-the-art Bi2Te3-based thermoelectric modules. Our work demonstrates the feasibility and scalability of high-performance thermoelectric modules based on sustainable elements for recovering low-grade heat.
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