Mn和Al双掺杂p型/spl β /-FeSi/sub - 2/的电学和热性能

Eighteenth International Conference on Thermoelectrics. Proceedings, ICT'99 (Cat. No.99TH8407) Pub Date : 1999-08-29 DOI:10.1109/ICT.1999.843351

H. Kaibe, H. Ernst, L. Rauscher, K. Schackenberg, E. Muller, Y. Isoda, I. Nishida

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引用次数: 3

摘要

采用热压法制备了掺杂Mn和Al的p型/spl β /-FeSi/sub 2/，考察了双掺杂效应对电阻率和导热系数的影响。霍尔系数作为温度的函数强烈表明存在双价带，随着Mn含量的增加，双价带更加明显。在几十K左右的低温下，观察到一个反常的霍尔效应。随着Mn含量的增加，从异常非线性霍尔电压(作为磁感应强度的函数)到正常行为的转变温度逐渐升高。900 K时Fe/sub 0.936/Mn/sub 0.064/Al/sub 0.015/Si/sub 1.988/的导热系数/spl kappa/为0.048 W/cmK，比Fe/sub 0.915/Mn/sub 0.085/Si/sub 2/低13%。因此，双掺杂的合金化效应对K的还原是相当有用的。

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Electrical and thermal properties for p-type /spl beta/-FeSi/sub 2/ with Mn and Al double doping

p-type /spl beta/-FeSi/sub 2/ doped with Mn and Al was prepared by hot pressing in order to examine the effect of double doping effect on electrical resistivity and thermal conductivity. The Hall coefficient as a function of temperature strongly suggested the existence of double valence bands, which become more pronounced with increasing Mn content. At low temperature around several ten K, an anomalous Hall effect has been observed. It becomes more pronounced and the transition temperature from anomalous non-linear Hall voltage as a function of magnetic induction to normal behavior shifts to higher temperature with increasing Mn content. Thermal conductivity /spl kappa/ for Fe/sub 0.936/Mn/sub 0.064/Al/sub 0.015/Si/sub 1.988/ was 0.048 W/cmK at 900 K, which is 13% lower than that of Fe/sub 0.915/Mn/sub 0.085/Si/sub 2/. Thus, it has been shown that alloying effect by double doping is considerably useful for reduction of K.

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Eighteenth International Conference on Thermoelectrics. Proceedings, ICT'99 (Cat. No.99TH8407)

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