Nanodopant-induced band modulation in AgPbmSbTe 2+m-type thermoelectrics

Yi Zhang; Xuezhi Ke; Changfeng Chen; Jihui Yang; Paul R.C. Kent

doi:10.1103/PhysRevLett.106.206601

Nanodopant-induced band modulation in AgPb_mSbTe _2+m-type thermoelectrics

Yi Zhang
, Xuezhi Ke
, Changfeng Chen
, Jihui Yang
, Paul R.C. Kent

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

The structure-property relation is a key outstanding problem in the study of nanocomposite materials. Here we elucidate the fundamental physics of nanodopants in thermoelectric nanocomposites XPb_mYTe_2+m (X=Ag,Na; Y=Sb,Bi). First-principles calculations unveil a sizable band-gap widening driven by nanodopant-induced lattice strain and a band split-off mainly caused by the spin-orbit interaction in nanodopant. Boltzmann transport calculations on PbTe with modified band mimicking nanodopant-induced modulations show significant but competing effects on high-temperature electron transport behavior. These results offer insights for understanding experimental findings and optimizing thermoelectric properties of narrow band-gap semiconductor nanocomposites.

Original language	English
Article number	206601
Journal	Physical Review Letters
Volume	106
Issue number	20
DOIs	https://doi.org/10.1103/PhysRevLett.106.206601
State	Published - May 20 2011

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10.1103/PhysRevLett.106.206601

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title = "Nanodopant-induced band modulation in AgPbmSbTe 2+m-type thermoelectrics",

abstract = "The structure-property relation is a key outstanding problem in the study of nanocomposite materials. Here we elucidate the fundamental physics of nanodopants in thermoelectric nanocomposites XPbmYTe2+m (X=Ag,Na; Y=Sb,Bi). First-principles calculations unveil a sizable band-gap widening driven by nanodopant-induced lattice strain and a band split-off mainly caused by the spin-orbit interaction in nanodopant. Boltzmann transport calculations on PbTe with modified band mimicking nanodopant-induced modulations show significant but competing effects on high-temperature electron transport behavior. These results offer insights for understanding experimental findings and optimizing thermoelectric properties of narrow band-gap semiconductor nanocomposites.",

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AU - Zhang, Yi

AU - Ke, Xuezhi

AU - Chen, Changfeng

AU - Yang, Jihui

AU - Kent, Paul R.C.

PY - 2011/5/20

Y1 - 2011/5/20

N2 - The structure-property relation is a key outstanding problem in the study of nanocomposite materials. Here we elucidate the fundamental physics of nanodopants in thermoelectric nanocomposites XPbmYTe2+m (X=Ag,Na; Y=Sb,Bi). First-principles calculations unveil a sizable band-gap widening driven by nanodopant-induced lattice strain and a band split-off mainly caused by the spin-orbit interaction in nanodopant. Boltzmann transport calculations on PbTe with modified band mimicking nanodopant-induced modulations show significant but competing effects on high-temperature electron transport behavior. These results offer insights for understanding experimental findings and optimizing thermoelectric properties of narrow band-gap semiconductor nanocomposites.

AB - The structure-property relation is a key outstanding problem in the study of nanocomposite materials. Here we elucidate the fundamental physics of nanodopants in thermoelectric nanocomposites XPbmYTe2+m (X=Ag,Na; Y=Sb,Bi). First-principles calculations unveil a sizable band-gap widening driven by nanodopant-induced lattice strain and a band split-off mainly caused by the spin-orbit interaction in nanodopant. Boltzmann transport calculations on PbTe with modified band mimicking nanodopant-induced modulations show significant but competing effects on high-temperature electron transport behavior. These results offer insights for understanding experimental findings and optimizing thermoelectric properties of narrow band-gap semiconductor nanocomposites.

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JO - Physical Review Letters

JF - Physical Review Letters

IS - 20

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ER -

Nanodopant-induced band modulation in AgPb_mSbTe _2+m-type thermoelectrics

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