Impact of resonant state formation and band convergence in In and Sr co-doped SnTe thermoelectric material evaluated via the single parabolic band model

Minsu Heo, Seung Hwan Kwon, Sang il Kim, Hyunjin Park, Kyu Hyoung Lee, Hyun Sik Kim

Research output: Contribution to journalArticlepeer-review

13 Scopus citations

Abstract

SnTe is a promising thermoelectric material for mid-temperature waste heat recovery. Recently, a high thermoelectric performance (zT) is reported in In and Sr co-doped Sn1−3xInxSr2xTe (x = 0.0 – 0.03). A high zT of 1.075 is achieved when x = 0.02 at 823 K. The In dopant is known to engineer the valence band of the SnTe by forming a resonant state near 300 K. The Sr dopant converges the two valence bands of the SnTe. However, when both In and Sr are doped in SnTe while keeping their atomic ratio constant, their effects on band engineering with increasing are not known. Here, the effects of resonant state formation and band convergence on electronic transport properties of Sn1−3xInxSr2xTe (x = 0.0 – 0.03) are investigated from the estimated temperature-dependent electronic band parameters. Both the resonant state formation and band convergence become most significant at the x = 0.02. According to the single parabolic band model, the zT of the x = 0.02 can be further improved to ∼1.834 (approximately 70 % zT improvement) upon carrier concentration tuning.

Original languageEnglish
Article number170144
JournalJournal of Alloys and Compounds
Volume954
DOIs
StatePublished - 5 Sep 2023

Keywords

  • Band convergence
  • Resonant state formation
  • Single parabolic band model
  • SnTe
  • Weighted mobility

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