Yu Xiao scite author profile

High thermoelectric performance of n-type PbTe is urgently needed to match its p-type counterpart. Here, we show a peak ZT ∼ 1.5 at 723 K and a record high average ZT > 1.0 at 300-873 K realized in n-type PbTe by synergistically suppressing lattice thermal conductivity and enhancing carrier mobility by introducing CuTe inclusions. Cu performs several outstanding roles: Cu atoms fill the Pb vacancies and improve carrier mobility, contributing to an unexpectedly high power factor of ∼37 μW cm K at 423 K; Cu atoms filling Pb vacancies and Cu interstitials both induce local disorder and, together with nano- and microscale Cu-rich precipitates and their related strain fields, lead to a very low lattice thermal conductivity of ∼0.38 Wm K in PbTe-5.5%CuTe, approaching the theoretical minimum value of ∼0.36 Wm K. This work provides an effective strategy to enhance thermoelectric performance by simultaneously improving electrical and thermal transport properties.

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Origin of low thermal conductivity in SnSe

Xiao

et al. 2016

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Enhanced Thermoelectric Properties in the Counter-Doped SnTe System with Strained Endotaxial SrTe

et al. 2016

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We report enhanced thermoelectric performance in SnTe, where significantly improved electrical transport properties and reduced thermal conductivity were achieved simultaneously. The former was obtained from a larger hole Seebeck coefficient through Fermi level tuning by optimizing the carrier concentration with Ga, In, Bi, and Sb dopants, resulting in a power factor of 21 μW cm(-1) K(-2) and ZT of 0.9 at 823 K in Sn(0.97)Bi(0.03)Te. To reduce the lattice thermal conductivity without deteriorating the hole carrier mobility in Sn(0.97)Bi(0.03)Te, SrTe was chosen as the second phase to create strained endotaxial nanostructures as phonon scattering centers. As a result, the lattice thermal conductivity decreases strongly from ∼2.0 Wm(-1) K(-1) for Sn(0.97)Bi(0.03)Te to ∼1.2 Wm(-1) K(-1) as the SrTe content is increased from 0 to 5.0% at room temperature and from ∼1.1 to ∼0.70 Wm(-1) K(-1) at 823 K. For the Sn(0.97)Bi(0.03)Te-3% SrTe sample, this leads to a ZT of 1.2 at 823 K and a high average ZT (for SnTe) of 0.7 in the temperature range of 300-823 K, suggesting that SnTe is a robust candidate for medium-temperature thermoelectric applications.

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Seeking new, highly effective thermoelectrics

Xiao

Zhao

2020

Science

376

223

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Yu Xiao

Synergistically optimized electrical and thermal transport properties of SnTe via alloying high-solubility MnTe

Remarkable Roles of Cu To Synergistically Optimize Phonon and Carrier Transport in n-Type PbTe-Cu₂Te

Origin of low thermal conductivity in SnSe

Enhanced Thermoelectric Properties in the Counter-Doped SnTe System with Strained Endotaxial SrTe

Seeking new, highly effective thermoelectrics

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Yu Xiao

Synergistically optimized electrical and thermal transport properties of SnTe via alloying high-solubility MnTe

Remarkable Roles of Cu To Synergistically Optimize Phonon and Carrier Transport in n-Type PbTe-Cu2Te

Origin of low thermal conductivity in SnSe

Enhanced Thermoelectric Properties in the Counter-Doped SnTe System with Strained Endotaxial SrTe

Seeking new, highly effective thermoelectrics

Contact Info

Product

Resources

About

Remarkable Roles of Cu To Synergistically Optimize Phonon and Carrier Transport in n-Type PbTe-Cu₂Te