塞贝克系数
热电效应
材料科学
热导率
热电材料
电阻率和电导率
复合材料
微晶
热压
晶界
高分辨率透射电子显微镜
纳米技术
微观结构
冶金
透射电子显微镜
热力学
电气工程
工程类
物理
作者
Nagaraj Nandihalli,Robert Liang,Dimuthu Wijethunge,Y. Zhou,Holger Kleinke
出处
期刊:AIP Advances
[American Institute of Physics]
日期:2018-12-01
卷期号:8 (12)
被引量:5
摘要
NiSb nanoparticles by 0.034, 0.074 and 0.16 volume fractions were successfully coated on bulk polycrystalline Ni0.05Mo3Sb5.4Te1.6 thermoelectric (TE) particles through a solvothermal route without deteriorating the bulk Ni0.05Mo3Sb5.4Te1.6 material. The samples were consolidated through hot pressing and their thermoelectric (TE) properties were characterized. At 400 K, 500 K, and 600 K, 0.074 NiSb sample exhibited 22%, 16% and 11.3% increases in the power factor (P.F.) compared to bulk material. The main contributing factor to this enhanced power factor is the elevated electrical conductivity. For the same sample, the reciprocal relationship between Seebeck coefficient and electrical conductivity is decoupled. Sample 0.16 NiSb exhibited the highest electrical conductivity among the three samples. The thermal conductivity of the 0.16 sample was less temperature sensitive compared to other samples. HRTEM and SEM tools were applied to comprehend microstructural features and their relationship to TE transport properties. Pore effect on the thermal and electrical conductivity was elucidated. This study shows that grain-boundary manipulation via this wet chemistry technique is indeed an economically viable method to fabricate and optimize the transport properties of bulk TE materials.
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