4.7 Article

Boosting the thermoelectric performance of n-type Bi2S3 by compositing rGO

期刊

JOURNAL OF ALLOYS AND COMPOUNDS
卷 933, 期 -, 页码 -

出版社

ELSEVIER SCIENCE SA
DOI: 10.1016/j.jallcom.2022.167814

关键词

Thermoelectric materials; Thermal conductivity; Scattering; Nano -structure; Composite materials; rGO

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The construction of nanocomposite structures can effectively reduce the thermal conductivity of thermoelectric materials, leading to improved thermoelectric properties. In this study, Bi2S3/rGO nanocomposite materials were prepared using hydrothermal synthesis techniques and tubular sintering techniques, showing significantly reduced thermal conductivity and enhanced performance compared to pure Bi2S3.
The construction of nanocomposite structures can effectively reduce the lattice thermal conductivity of thermoelectric materials, which are considered an essential technique to improve the thermoelectric figure of merit of thermoelectric materials. Herein, we prepared a series of Bi2S3 +xml reduced graphene oxide (rGO)(x = 5 ml, 10 ml, 15 ml, 20 ml) nanocomposite thermoelectric materials by combining simple hy-drothermal synthesis techniques and tubular sintering techniques. The rGO is uniformly dispersed in the precursor solution and tightly bound in the Bi2S3 matrix, which significantly reduces the thermal con-ductivity of the matrix material. The total thermal conductivity(Kappa) of the Bi2S3/rGO (20 ml) nanocomposite is as low as 0.12 WmiddotK-1middotm-1 at 578 K, which is nearly 69% lower than that of the pure Bi2S3. In addition, the conductivity of Bi2S3/rGO (10 ml) nanocomposites above 450 K is better than that of the pure Bi2S3, which indicates that adjusting the content of rGO can optimize the conductivity of Bi2S3 to a certain extent. At 577 K, the ZT of Bi2S3/rGO (10 ml) nanocomposite can reach 0.22, which is 46% higher than that of pure Bi2S3. This study utilizes hydrothermal synthesis techniques and tubular sintering techniques to tune the structure of composites at the nanoscale, providing a new approach for optimizing the thermoelectric properties of Bi2S3.(c) 2022 Elsevier B.V. All rights reserved.

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