Low-Temperature Thermoelectric Properties of Co0.9Fe0.1Sb3-Based Skutterudite Nanocomposites with FeSb2 Nanoinclusions

Chen Zhou; Jeffery Sakamoto; Donald Morelli

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Low-Temperature Thermoelectric Properties of Co_0.9Fe_0.1Sb₃-Based Skutterudite Nanocomposites with FeSb₂ Nanoinclusions

机译：含FeSb _{2 纳米夹杂物的Co _{0.9 Fe _{0.1 Sb _{3 基方钴矿纳米复合材料的低温热电性能}}}}

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Bulk thermoelectric nanocomposite materials have great potential to exhibit higher ZT due to effects arising from their nanostructure. Herein, we report low-temperature thermoelectric properties of Co_0.9Fe_0.1Sb₃-based skutterudite nanocomposites containing FeSb₂ nanoinclusions. These nanocomposites can be easily synthesized by melting and rapid water quenching. The nanoscale FeSb₂ precipitates are well dispersed in the skutterudite matrix and reduce the lattice thermal conductivity due to additional phonon scattering from nanoscopic interfaces. Moreover, the nanocomposite samples also exhibit enhanced Seebeck coefficients relative to regular iron-substituted skutterudite samples. As a result, our best nanocomposite sample boasts a ZT = 0.041 at 300 K, which is nearly three times as large as that for Co_0.9Fe_0.1Sb₃ previously reported.

机译：块状热电纳米复合材料由于其纳米结构所产生的影响，具有显示更高ZT的巨大潜力。在此，我们报道了含有FeSb _{2 0.9 Fe _{0.1 Sb _{3 基方钴矿纳米复合材料的低温热电性能。 >纳米夹杂物。这些纳米复合材料可以通过熔融和快速水淬容易地合成。纳米级FeSb _{2 沉淀物很好地分散在方钴矿基体中，并由于声子从纳米界面的额外散射而降低了晶格热导率。而且，相对于常规的铁取代的方钴矿样品，纳米复合材料样品还表现出增强的塞贝克系数。结果，我们最好的纳米复合材料样品在300 K时的ZT = 0.041，几乎是Co _{0.9 Fe _{0.1 Sb _{3的三倍以前报告过。}}}}}}}

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《Journal of Electronic Materials》 |2011年第5期|p.547-550|共4页
作者
Chen Zhou; Jeffery Sakamoto; Donald Morelli;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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1. Low-Temperature Thermoelectric Properties of Co_(0.9)Fe_(0.1)Sb_(3)-Based Skutterudite Nanocomposites with FeSb_(2) Nanoinclusions [J] . CHEN ZHOU, JEFFERY SAKAMOTO, DONALD MORELLI Journal of Electronic Materials . 2011,第5期

机译：含FeSb_（2）纳米夹杂物的Co_（0.9）Fe_（0.1）Sb_（3）基Skutterudite纳米复合材料的低温热电性能
2. Thermoelectric properties of Co_(0.9)Fe_(0.1)Sb_3-based skutterudite nanocomposites with FeSb_2 nanoinclusions [J] . Chen Zhou, Jeffrey Sakamoto, Donald Morelli, Journal of Applied Physics . 2011,第6期

机译：含FeSb_2纳米夹杂物的Co_（0.9）Fe_（0.1）Sb_3基方钴矿纳米复合材料的热电性能
3. High-Temperature Thermoelectric Properties of p-Type Yb-Filled Skutterudite Nanocomposites with FeSb_(2) Nanoinclusions [J] . CHEN ZHOU, JEFFERY SAKAMOTO, DONALD MORELLI Journal of Electronic Materials . 2012,第6期

机译：具有FeSb_（2）纳米夹杂物的p型Yb填充方钴矿纳米复合材料的高温热电性能。
4. Thermoelectric properties of Bi-FeSb_2 nanocomposites: Evidence for phonon-drag effect [C] . Mani Pokharel, Machhindra Koirala, Huaizhou Zhao, Symposium B on Thermoelectric Materials Research and Device Development for Power Conversion and Refrigeration . 2013

机译：Bi-Fesb_2纳米复合材料的热电性能：声音拖动效果的证据
5. Thermoelectric transport properties of nanostructured FeSb 2 and Ce-based heavy-fermions CeCu and CeAl 3. [D] . Pokharel, Mani R. 2015

机译：纳米结构的FeSb 2和Ce基重质子CeCu和CeAl 3的热电输运性质。
6. Structural Properties and Thermoelectric Performance of the Double-Filled Skutterudite (SmGd)y(FexNi1-x)4Sb12 [O] . Cristina Artini, Riccardo Carlini, Roberto Spotorno, 2019

机译：双填充方钴矿（SmGd）y（FexNi1-x）4Sb12的结构性质和热电性能
7. Thermoelectric properties of the unfilled skutterudite FeSb3 from first principles and Seebeck local probes [O] . Lemal, Sébastien, Ngoc, Nguyen, de Boor, Johannes, 2015

机译：第一原理和塞贝克局部探针对未填充方钴矿FeSb3的热电性能

Low-Temperature Thermoelectric Properties of Co0.9Fe0.1Sb3-Based Skutterudite Nanocomposites with FeSb2 Nanoinclusions

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Low-Temperature Thermoelectric Properties of Co_0.9Fe_0.1Sb₃-Based Skutterudite Nanocomposites with FeSb₂ Nanoinclusions