Abstract Effect of nanowires in microporous structures on the thermoelectric properties of oxidized Sb-doped ZnO film
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Effect of nanowires in microporous structures on the thermoelectric properties of oxidized Sb-doped ZnO film

机译:纳米线在微孔结构上的影响对氧化SB掺杂ZnO膜的热电性能

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摘要

AbstractSb-doped ZnO thermoelectric films with microporous structures are fabricated by oxidizing evaporated Zn-Sb thin films in a leaf-like surface. High magnetic field (HMF) and Sb are employed to tune the formation of nanowires and nanorods in the microporous films and conduction type. Nanowire is formed in the film with Sb content of 3.0% and nanorod is formed with 4.6% Sb with the absence of HMF. P-type ZnO films with a wuterzite are formed. The resistivity of the films decreases by two orders of magnitude by increasing Sb content. The resistivity of films decreases 45% and 80% by forming nanowires and nanorods, respectively. The power factor of the nanorod structures increases by two orders of magnitude by comparison with others and reaches to 52.6μW/m?K2. This indicates that the nanorod structures with a higher Sb content are easy to obtain stablep-type semiconductor with a higher power factor.]]>
机译:<![cdata [ 抽象 通过氧化叶状表面中的蒸发的Zn-Sb薄膜制造具有微孔结构的SB掺杂的ZnO热电薄膜。使用高磁场(HMF)和Sb来调谐微孔膜和传导类型中的纳米线和纳米棒的形成。纳米线形成在具有3.0%的Sb含量的薄膜中,并且纳米棒形成4.6%Sb,没有HMF。形成具有五萜的P型ZnO膜。通过增加Sb含量,薄膜的电阻率降低了两个数量级。通过分别形成纳米线和纳米棒,薄膜的电阻率降低了45%和80%。纳米棒结构的功率因数通过与他人的比较来增加两个数量级,并且达到52.6μW/m≤k 2 。这表明具有较高Sb含量的纳米棒结构易于获得稳定的 p -type半导体,具有更高的功率因数。 ]]>

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    Guojian Li; Lin Xiao; Shiying Liu; Huimin Wang; Yang Gao; Qiang Wang;

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    Key Laboratory of Electromagnetic Processing of Materials (Ministry of Education) Northeastern University;

    Key Laboratory of Electromagnetic Processing of Materials (Ministry of Education) Northeastern University;

    Key Laboratory of Electromagnetic Processing of Materials (Ministry of Education) Northeastern University;

    Key Laboratory of Electromagnetic Processing of Materials (Ministry of Education) Northeastern University;

    Key Laboratory of Electromagnetic Processing of Materials (Ministry of Education) Northeastern University;

    Key Laboratory of Electromagnetic Processing of Materials (Ministry of Education) Northeastern University;

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  • 正文语种 eng
  • 中图分类 陶瓷工业;
  • 关键词

    Sb-doped ZnO film; Oxidization growth; Thermoelectric material; P-type conduction;

    机译:SB掺杂的ZnO膜;氧化生长;热电材料;P型传导;

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