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Highly Textured N-Type SnSe Polycrystals with Enhanced Thermoelectric Performance.


ABSTRACT: Thermoelectric materials, which directly convert heat into electricity based on the Seebeck effects, have long been investigated for use in semiconductor refrigeration or waste heat recovery. Among them, SnSe has attracted significant attention due to its promising performance in both p-type and n-type crystals; in particular, a higher out-of-plane ZT value could be achieved in n-type SnSe due to its 3D charge and 2D phonon transports. In this work, the thermoelectric transport properties of n-type polycrystalline SnSe were investigated with an emphasis on the out-of-plane transport through producing textural microstructure. The textures were fabricated using mechanical alloying and repeated spark plasma sintering (SPS), as a kind of hot pressing, aimed at producing strong anisotropic transports in n-type polycrystalline SnSe as that in crystalline SnSe. Results show that the lowest thermal conductivity of 0.36?Wm-1 K-1 was obtained at 783?K in perpendicular to texture direction. Interestingly, the electrical transport properties are less anisotropic and even nearly isotropic, and the power factors reach 681.3 ?Wm-1 K-2 at 783?K along both parallel and perpendicular directions. The combination of large isotropic power factor and low anisotropic thermal conductivity leads to a maximum ZT of 1.5 at 783?K. The high performance elucidates the outstanding electrical and thermal transport behaviors in n-type polycrystalline SnSe, and a higher thermoelectric performance can be expected with future optimizing texture in n-type polycrystalline SnSe.

SUBMITTER: Shang PP 

PROVIDER: S-EPMC6946256 | biostudies-literature | 2019

REPOSITORIES: biostudies-literature

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Highly Textured N-Type SnSe Polycrystals with Enhanced Thermoelectric Performance.

Shang Peng-Peng PP   Dong Jinfeng J   Pei Jun J   Sun Fu-Hua FH   Pan Yu Y   Tang Huaichao H   Zhang Bo-Ping BP   Zhao Li-Dong LD   Li Jing-Feng JF  

Research (Washington, D.C.) 20191111


Thermoelectric materials, which directly convert heat into electricity based on the Seebeck effects, have long been investigated for use in semiconductor refrigeration or waste heat recovery. Among them, SnSe has attracted significant attention due to its promising performance in both p-type and n-type crystals; in particular, a higher out-of-plane ZT value could be achieved in n-type SnSe due to its 3D charge and 2D phonon transports. In this work, the thermoelectric transport properties of n-t  ...[more]

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