Lattice Thermal Conductivity in Thermoelectric Materials

Jia-Jun SHEN; Teng FANG; Tie-Zheng FU; Jia-Zhan XIN; Xin-Bing ZHAO; Tie-Jun ZHU; [in Chinese]; [in Chinese]; [in Chinese]; [in Chinese]; [in Chinese]; [in Chinese]

doi:10.15541/jim20180320

Journal of Inorganic Materials, Volume. 34, Issue 3, 260(2019)

Lattice Thermal Conductivity in Thermoelectric Materials

Jia-Jun SHEN... Teng FANG, Tie-Zheng FU, Jia-Zhan XIN, Xin-Bing ZHAO, Tie-Jun ZHU, [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese] and [in Chinese] |Show fewer author(s)

Author Affiliations

State Key Laboratory of Silicon Materials, School of Materials Science and Engineering, Zhejiang University, Hangzhou 310027, China

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Figures & Tables(9)

. (a) Temperature dependence of the lattice thermal conductivity for Cu_2-_xSe^[11] and (b) number of atoms in the primitive unit cell versus room temperature lattice thermal conductivity^{[12,13,14,15,16]}

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. (a) Schematic diagram of crystal structure for Ba₈Ga₁₆Ge₃₀, (b) a simple spring model and (c) the corresponding dispersion relation of filled and unfilled clathrate^[29]describing interaction between the host cages with a spring constant K₁ and the guest atoms attached to the cages with a spring constant K₂

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. Grüneisen parameter versus room temperature lattice thermal conductivity^{[6, 22, 39-53]}

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. (a) Phonon frequency dependence of spectral lattice thermal conductivity for (Nb_0.6Ta_0.4)_0.8Ti_0.2FeSb and Nb_0.8Ti_0.2FeSb, and (b) relationship between Ta content and lattice thermal conductivity/disorder parameter for (Nb_0.6Ta_0.4)_0.8Ti_0.2FeSb^[70]

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. (a) Inverse FFT images and strain mapping of dislocations in the Mg₂Si_0.5Sb_0.5, and (b) lattice thermal conductivity comparison between Mg₂Si_1-_xSb_x and Mg₂Si_1-_zSn_z at room temperature^[84]

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. (a) Schematic diagram of crystal structure for BiSe and (b) lattice thermal conductivity comparison between Bi₂Se₃and BiSe^[88]

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. (a) Schematic diagram of electron-phonon scattering and (b) comparison of experimental and calculated lattice thermal conductivities by Callaway Model for the silicon sample^[93]

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. (a) Schematic diagram of the difference between diffusion model and phonon model, and (b) comparison of calculated minimum lattice thermal conductivities by Cahill model and diffuson model

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. Several strategies to obtain low lattice thermal conductivity

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Jia-Jun SHEN, Teng FANG, Tie-Zheng FU, Jia-Zhan XIN, Xin-Bing ZHAO, Tie-Jun ZHU, [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese]. Lattice Thermal Conductivity in Thermoelectric Materials[J]. Journal of Inorganic Materials, 2019, 34(3): 260

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Paper Information

Category: Research Articles

Received: Jul. 16, 2018

Accepted: --

Published Online: Sep. 26, 2021

The Author Email:

DOI:10.15541/jim20180320

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology

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