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Enhanced power factor and reduced thermal conductivity of a half-Heusler derivative Ti9Ni7Sn8: A bulk nanocomposite thermoelectric materialud

机译：半赫斯勒衍生物Ti9Ni7sn8的增强功率因数和降低的热导率：大块纳米复合热电材料 ud

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We report a half-Heusler (HH) derivative Ti9Ni7Sn8 with VEC = 17.25 to investigate the structural changes for the optimization of high thermoelectric performance. The structural analysis reveals that the resulting material is a nanocomposite of HH and full-Heusler with traces of Ti6Sn5 type-phase. Interestingly, present nanocomposite exhibits a significant decrease in thermal conductivity due to phonon scattering and improvement in the power factor due to combined effect of nanoinclusion-induced electron injection and electron scattering at interfaces, leading to a boost in the ZT value to 0.32 at 773 K, which is 60% higher than its bulk counterpart HH TiNiSn.

机译：我们报告了一个半Heusler（HH）衍生物Ti9Ni7Sn8，VEC = 17.25，以研究结构变化以优化高热电性能。结构分析表明，所得材料是HH和全Heusler的纳米复合材料，具有Ti6Sn5型相的痕迹。有趣的是，由于纳米包裹体诱导的电子注入和界面处的电子散射的联合作用，当前的纳米复合材料由于声子散射而导致导热率显着下降，并且功率因数得到改善，从而导致773 K下ZT值提高至0.32 ，比其同类产品HH TiNiSn高60％。

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Misra D. K.; Rajput A.; Bhardwaj A.; Chauhan N. S.; Singh Sanjay;
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1. Enhanced power factor and reduced thermal conductivity of a half-Heusler derivative Ti_9Ni_7Sn_8: A bulk nanocomposite thermoelectric material [J] . D. K. Misra, A. Rajput, A. Bhardwaj, Applied Physics Letters . 2015,第10期

机译：半Heusler衍生物Ti_9Ni_7Sn_8的增强的功率因数和降低的热导率：一种块状纳米复合热电材料
2. Improving the thermoelectric performance of TiNiSn half-Heusler via incorporating submicron lamellae eutectic phase of Ti70.5Fe29.5: a new strategy for enhancing the power factor and reducing the thermal conductivity [J] . Bhardwaj A., Misra D. K. Journal of Materials Chemistry, A. Materials for energy and sustainability . 2014,第48期

机译：通过掺入Ti70.5Fe29.5的亚微米薄片共晶相来改善TiNiSn半霍斯勒的热电性能：提高功率因数并降低导热性的新策略
3. Crystalline-Amorphous Silicon Nanocomposites with Reduced Thermal Conductivity for Bulk Thermoelectrics [J] . Miura Asuka, Zhou Shu, Nozaki Tomohiro, ACS applied materials & interfaces . 2015,第24期

机译：降低热导率的晶态非晶硅纳米复合材料，用于块状热电材料
4. Thermoelectric Properties of Ultra-low Thermal Conductivity Half-Heusler Alloy [C] . Mofasser Mallick, Satish Vitta DAE Solid State Physics Symposium . 2016

机译：超低导热率的热电性能半血管合金
5. Thermoelectric Properties of Silicon Germanium: An Investigation of the Reduction of Lattice Thermal Conductivity and Enhancement of Power Factor [D] . Lahwal, Ali Sadek 2015

机译：硅锗的热电性能：对晶格导热系数降低的调查和功率因数增强
6. Facile fabrication of one-dimensional Te/Cu2Te nanorod composites with improved thermoelectric power factor and low thermal conductivity [O] . Dabin Park, Hyun Ju, Taeseob Oh, -1

机译：简便制造具有改善的热电功率因数和低导热率的一维Te / Cu2Te纳米棒复合材料
7. Enhanced power factor and reduced thermal conductivity of a half-Heusler derivative Ti₉Ni₇Sn₈: A bulk nanocomposite thermoelectric material [O] . Misra, D., Rajput, A., Bhardwaj, A., 2015

机译：半Heusler衍生物Ti _{9 Ni _{7 sn _{8 的增强功率因数和降低的热导率：块状纳米复合热电材料}}}

Enhanced power factor and reduced thermal conductivity of a half-Heusler derivative Ti9Ni7Sn8: A bulk nanocomposite thermoelectric materialud

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