Using crystallographic shear to reduce lattice thermal conductivity: high 
temperature thermoelectric characterization of the spark plasma sintered 
Magnéli phases WO2.90 and WO2.722

Kieslich, G.; Veremchuk, I.; Antonyshyn, I.; Zeier, W. G.; Birkel, C. S.; Weldert, K.; Heinrich, C. P.; Visnow, E.; Panthofer, M.; Burkhardt, U.; Grin, Y.; Tremel, W.

doi:10.1039.c3cp52361f

Using crystallographic shear to reduce lattice thermal conductivity: high temperature thermoelectric characterization of the spark plasma sintered Magnéli phases WO_2.90 and WO_2.722

Kieslich, G., Veremchuk, I., Antonyshyn, I., Zeier, W. G., Birkel, C. S., Weldert, K., Heinrich, C. P., Visnow, E., Panthofer, M., Burkhardt, U., Grin, Y., & Tremel, W. (2013). Using crystallographic shear to reduce lattice thermal conductivity: high temperature thermoelectric characterization of the spark plasma sintered Magnéli phases WO_2.90 and WO_2.722. Physical Chemistry Chemical Physics, 15(37), 15399-15403. doi:10.1039.c3cp52361f.

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アイテムのパーマリンク: https://hdl.handle.net/11858/00-001M-0000-0015-1E32-E 版のパーマリンク: https://hdl.handle.net/11858/00-001M-0000-0015-1E33-C

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Kieslich, G., 著者
Veremchuk, I.¹, 著者
Antonyshyn, I.², 著者
Zeier, W. G., 著者
Birkel, C. S., 著者
Weldert, K., 著者
Heinrich, C. P., 著者
Visnow, E., 著者
Panthofer, M., 著者
Burkhardt, U.³, 著者
Grin, Y.⁴, 著者
Tremel, W., 著者

所属:
1Igor Veremchuk, Chemical Metal Science, Max Planck Institute for Chemical Physics of Solids, Max Planck Society, ou_1863411
2Iryna Antonyshyn, Chemical Metal Science, Max Planck Institute for Chemical Physics of Solids, Max Planck Society, ou_1863412
3Ulrich Burkhardt, Chemical Metal Science, Max Planck Institute for Chemical Physics of Solids, Max Planck Society, ou_1863422
4Juri Grin, Chemical Metal Science, Max Planck Institute for Chemical Physics of Solids, Max Planck Society, ou_1863413

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要旨: Engineering of nanoscale structures is a requisite for controlling the electrical and thermal transport in solids, in particular for thermoelectric applications that require a conflicting combination of low thermal conductivity and low electrical resistivity. We report the thermoelectric properties of spark plasma sintered Magneli phases WO2.90 and WO2.722. The crystallographic shear planes, which are a typical feature of the crystal structures of Magneli-type metal oxides, lead to a remarkably low thermal conductivity for WO2.90. The figures of merit (ZT = 0.13 at 1100 K for WO2.90 and 0.07 at 1100 K for WO2.722) are relatively high for tungsten-oxygen compounds and metal oxides in general. The electrical resistivity of WO2.722 shows a metallic behaviour with temperature, while WO2.90 has the characteristics of a heavily doped semiconductor. The low thermopower of 80 mu V K-1 at 1100 K for WO2.90 is attributed to its high charge carrier concentration. The enhanced thermoelectric performance for WO2.90 compared to WO2.722 originates from its much lower thermal conductivity, due to the presence of crystallographic shear and dislocations in the crystal structure. Our study is a proof of principle for the development of efficient and low-cost thermoelectric materials based on the use of intrinsically nanostructured materials rather than artificially structured layered systems to reduce lattice thermal conductivity.

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言語: eng - English

日付: 出版: 2013-10-28

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識別子（DOI, ISBNなど）: eDoc: 670769
ISI: 000323727800017
DOI: 10.1039.c3cp52361f

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出版物名: Physical Chemistry Chemical Physics

種別: 学術雑誌

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ページ: - 巻号: 15 (37) 通巻号: - 開始・終了ページ: 15399 - 15403 識別子（ISBN, ISSN, DOIなど）: ISSN: 1463-9076

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