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Band Engineering Through Pb-Doping of Nanocrystal Building Blocks to Enhance Thermoelectric Performance in CuSbSe. | LitMetric

Band Engineering Through Pb-Doping of Nanocrystal Building Blocks to Enhance Thermoelectric Performance in CuSbSe.

Small Methods

Anhui Province Key Laboratory of Advanced Catalytic Materials and Reaction Engineering School of Chemistry and Chemical Engineering, Hefei University of Technology, Hefei, 230009, P. R. China.

Published: August 2024

AI Article Synopsis

  • The study focuses on enhancing thermoelectric (TE) materials, specifically CuSbSe, which is a promising p-type material but suffers from low electrical conductivity due to poor charge carrier concentration.
  • A new scalable solution-based method is developed to create high-quality CuSbSe nanocrystals doped with Pb, improving electrical conductivity while maintaining high Seebeck coefficients.
  • The resulting CuSbPbSe material achieves a maximum figure of merit (zT) of approximately 0.85 at 653 K, representing a significant improvement and demonstrating the cost-effective benefits of the solution-based approach over traditional solid-state methods.

Article Abstract

Developing cost-effective and high-performance thermoelectric (TE) materials to assemble efficient TE devices presents a multitude of challenges and opportunities. CuSbSe is a promising p-type TE material based on relatively earth abundant elements. However, the challenge lies in its poor electrical conductivity. Herein, an efficient and scalable solution-based approach is developed to synthesize high-quality CuSbSe nanocrystals doped with Pb at the Sb site. After ligand displacement and annealing treatments, the dried powders are consolidated into dense pellets, and their TE properties are investigated. Pb doping effectively increases the charge carrier concentration, resulting in a significant increase in electrical conductivity, while the Seebeck coefficients remain consistently high. The calculated band structure shows that Pb doping induces band convergence, thereby increasing the effective mass. Furthermore, the large ionic radius of Pb results in the generation of additional point and plane defects and interphases, dramatically enhancing phonon scattering, which significantly decreases the lattice thermal conductivity at high temperatures. Overall, a maximum figure of merit (zT) ≈ 0.85 at 653 K is obtained in CuSbPbSe. This represents a 1.6-fold increase compared to the undoped sample and exceeds most doped CuSbSe-based materials produced by solid-state, demonstrating advantages of versatility and cost-effectiveness using a solution-based technology.

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Source
http://dx.doi.org/10.1002/smtd.202301377DOI Listing

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