Solid-State Synthesis of Thermoelectric Materials in Mg-Si-Ge System

Tatsuhiko Aizawa; Renbo Song; Atsushi Yamamoto

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Solid-State Synthesis of Thermoelectric Materials in Mg-Si-Ge System

机译：Mg-Si-Ge体系中热电材料的固相合成

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Solid solution Mg_2Si_(1-x)Ge_x. for various concentration of germanium, x, is successfully prepared in single phase by the bulk mechanical alloying (BMA) and the hot pressing (HP). Both BMA and HP process conditions were optimized to yield high dense samples with fine, homogeneous microstructure. The electrical conductivity, the Seebeck coefficient and the thermal conductivity are measured from room temperature up to about 700 K. The Seebeck coefficient is much sensitive to the germanium content, x in Mg_2Si_(1-x)Ge_x, The pn-transition takes place at x = 0.35 where the Seebeck coefficient drastically changes its sign. The measured band gap of Mg_2Si_(1-x)Ge_x decreases with x from 0.71 to 0.54 eV. The figure of merit at 613 K of Mg_2Si_(0.6)Ge-(0.4) reaches 0.34 x 10~(-3) K~(-1) in the case of BMA for N = 600 and HP at 773 K by 1 GPa for 3.6 ks.

机译：固溶体Mg_2Si_（1-x）Ge_x。对于各种浓度的锗，通过块体机械合金化（BMA）和热压（HP）成功地在单相中制备了x。 BMA和HP工艺条件均经过优化，可生产出具有精细，均质微观结构的高密度样品。电导率，塞贝克系数和热导率是在室温至约700 K的范围内测量的。塞贝克系数对锗含量非常敏感，锗在Mg_2Si_（1-x）Ge_x中的含量为x，pn转变发生在x = 0.35，其中塞贝克系数急剧改变其符号。 Mg_2Si_（1-x）Ge_x的带隙实测值随着x从0.71 eV减小到0.54 eV。在N = 600的BMA和773 K的1 GPa的HP下，Mg_2Si_（0.6）Ge-（0.4）在613 K时的品质因数达到0.34 x 10〜（-3）K〜（-1） 3.6克拉

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《Materials transactions》 |2005年第7期|共7页
作者
Tatsuhiko Aizawa; Renbo Song; Atsushi Yamamoto;
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正文语种 eng
中图分类金属材料;
关键词
Solid-state synthesis; Mg_2Si_(1-x)Ge_x; bulk mechanical alloying; hot pressing; thermoelectricity; pn-transition;

机译：固相合成;Mg_2Si_（1-x）Ge_x;本体机械合金化;热压;热电;pn过渡;

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1. Solid-State Synthesis of Thermoelectric Materials in Mg-Si-Ge System [J] . Tatsuhiko Aizawa, Renbo Song, Atsushi Yamamoto Materials transactions . 2005,第7期

机译：Mg-Si-Ge体系中热电材料的固相合成
2. Solid-State Synthesis and Thermoelectric Properties of Sb-Doped Mg_2Si Materials [J] . M. IOANNOU, G. POLYMERIS, E. HATZIKRANIOTIS, Journal of Electronic Materials . 2013,第7期

机译：掺Sb的Mg_2Si材料的固相合成和热电性能
3. Synthesis and Thermoelectric Properties of LAST System Bulk Materials: Substitution of Sulfur for Tellurium [J] . ZHAO-XIN YU, JING-FENG LI, BO-PING ZHANG, Journal of Electronic Materials . 2012,第6期

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4. Solid-State Synthesis of Mg_2Si_(1-x)Y_x(Y=Ge and Sn) Thermoelectric Materials via Bulk Mechanical Alloying [C] . R.B. Song, T.Aizawa, A.Yamamoto, International Symposium on Metastable, Mechanically Alloyed and Nanocrystalline Materials . 2005

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7. Solid-State Synthesis of Thermoelectric Materials in Mgndash;Sindash;Ge System [O] . Tatsuhiko Aizawa, Renbo Song, Atsushi Yamamoto 2005

机译：Mg-Si-GE系统中热电材料的固态合成
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Solid-State Synthesis of Thermoelectric Materials in Mg-Si-Ge System

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