Beilstein Journal of Nanotechnology (Mar 2019)

Enhancement in thermoelectric properties due to Ag nanoparticles incorporated in Bi2Te3 matrix

  • Srashti Gupta,
  • Dinesh Chandra Agarwal,
  • Bathula Sivaiah,
  • Sankarakumar Amrithpandian,
  • Kandasami Asokan,
  • Ajay Dhar,
  • Binaya Kumar Panigrahi,
  • Devesh Kumar Avasthi,
  • Vinay Gupta

DOI
https://doi.org/10.3762/bjnano.10.63
Journal volume & issue
Vol. 10, no. 1
pp. 634 – 643

Abstract

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The present study aims to see the enhancement in thermoelectric properties of bismuth telluride (Bi2Te3) annealed at different temperatures (573 and 773 K) through silver (Ag) nano-inclusions (0, 2, 5, 10, 15 and 20 wt %). Transmission electron microscopy (TEM) images of Ag incorporated in Bi2Te3 annealed at 573 K shows tubular, pentagonal, trigonal, circular and hexagonal nanoparticles with sizes of 6–25 nm (for 5 wt % Ag ) and 7–30 nm (for 20 wt % Ag). Ag incorporated in Bi2Te3 annealed at 773 K shows mainly hexagonally shaped structures with particle sizes of 2–20 nm and 40–80 nm (for 5 wt % Ag) and 10–60 nm (for 20 wt % Ag). Interestingly, the samples annealed at 573 K show the highest Seebeck coefficient (S, also called thermopower) at room temperature (p-type behavior) for 5% Ag which is increased ca. five-fold in comparison to Ag-free Bi2Te3, whereas for samples with the same content (5% Ag) annealed at 773 K the increment in thermopower is only about three-fold with a 6.9-fold enhancement of the power factor (S2σ). The effect of size and shape of the nanoparticles on thermoelectric properties can be understood on the basis of a carrier-filtering effect that results in an increase in thermopower along with a control over the reduction in electrical conductivity to maintain a high power factor yielding a high figure of merit.

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