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W2891485840 abstract "Realizing high thermoelectric performance requires high electrical transport properties and low thermal conductivity, which are essentially determined by balancing the interdependent controversy of carrier mobility, effective mass, and lattice thermal conductivity. Here, we observed an electronic band inversion (approaching topological insulating states) in Sn and Se co-alloyed PbTe, resulting in optimizing effective mass and carrier mobility. The Sn alloying in PbTe(Se) can narrow its band gap due to band inversion and induce a sharper conduction band (equals to lower carrier mass), which further facilitates high carrier mobility, ∼251 cm2 V–1 s–1 in Pb0.89Sn0.11Te0.89Se0.11 at room temperature, thus leading to a high power factor. Meanwhile, we found that the lattice thermal conductivity κl can be reduced from ∼0.77 Wm–1 K–1 in PbTe to ∼0.45 Wm–1 K–1 in (Pb0.91Sn0.09)(Te0.91Se0.09) by producing point defects via Sn and Se co-alloying. Coupling reducing lattice thermal conductivity with integration of optimizing effective mass and carrier mobility by means of electronic band inversion, we obtained a maximum ZT value ∼1.4 at 773 K in n-type (Pb0.93Sn0.07)(Te0.93Se0.07)." @default.
W2891485840 created "2018-09-27" @default.
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W2891485840 date "2018-09-13" @default.
W2891485840 modified "2023-10-16" @default.
W2891485840 title "Approaching Topological Insulating States Leads to High Thermoelectric Performance in n-Type PbTe" @default.
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W2891485840 doi "https://doi.org/10.1021/jacs.8b09029" @default.
W2891485840 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30212199" @default.
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