Thermoelectric Power Measurement of Catalyst-free Si-doped GaAs Nanowires

机译：无催化剂的Si掺杂GaAs纳米线的热电功率测量

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Si-doped GaAs nanowires (NWs) were grown on (111)Si substrate by MBE-VLS method. The electrical characteristics of the GaAs NWs were measured. A joule heater was arranged near the tip of NW for making the gradient of substrate temperature. The obtained Seebeck coefficient of the GaAs NW increases linearly with a rise in temperature. The thermoelectric power of the Si doped GaAs NW was determined by the hole diffusion. It was estimated that the hole density in the Si-doped GaAs NW at room temperature was 5.9×10~(18) cm~(-3) from the slope of the temperature dependence of the Seebeck coefficient in the Si-doped GaAs NW. At room temperature, the Seebeck coefficient, thermoelectric power factor, and thermoelectric figure of merit (ZT) were 429 μV/K, 271μW/mK~2, and 1.5×10~(-3), respectively.

机译：通过MBE-VLS方法在（111）Si底物上生长Si掺杂的GaAs纳米线（NWS）。测量GaAs NWS的电气特性。 joule加热器布置在NW的尖端附近，以使衬底温度的梯度。获得的GaAc NW的塞巴克系数随温度升高而线性增加。通过空穴扩散确定Si掺杂GaAs NW的热电力。据估计，在室温下的Si掺杂GaAs NW中的孔密度从Si掺杂GaAS NW中的塞贝克系数的温度依赖性的斜率为5.9×10〜（18）cm〜（3）。在室温下，Seebeck系数，热电功率因数和优选（ZT）的热电人物分别为429μV/ k，271μw/ mk〜2和1.5×10〜（-3）。

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《Materials Research Society Symposium N on One-Dimensional Nanostructured Materials for Energy Conversion and Storage》|2012年||共5页
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Masahito Yamaguchi; Jihyun Paek; Hiroshi Amano;
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Thermoelectric Power Measurement of Catalyst-free Si-doped GaAs Nanowires

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