热电材料是一种性能优越的环境友好型材料,它能够直接把电能和热能相互转化,是目前新技术能源材料领域的关键材料.Mg2Si基半导体是一种新型的中温区热电材料,具有热电值高,原料无毒害等优点,由于镁的活性较高,如何制备出性能更加优良的Mg2Si基块体热电材料成为本领域研究的重点.本文简要介绍了Mg2Si基热电材料的基本性质,阐述其各种制备方法和掺杂研究现状,并展望其未来研究方向.
参考文献
| [1] | 毛顺杰,栾伟玲,黄琥,涂善东,郭景坤.氧化物热电材料的研究现状与应用[J].硅酸盐通报,2005(03):59-63,110. |
| [2] | Yu, F;Sun, JX;Yang, W;Tian, RG;Ji, GF .A study of the phase transitions, electronic structures and optical properties of Mg2Si under high pressure[J].Solid State Communications,2010(13/14):620-624. |
| [3] | Hao, J.-H.;Guo, Z.-G.;Jin, Q.-H. .First principles calculation of structural phase transformation in Mg _2Si at high pressure[J].Solid State Communications,2010(47/48):2299-2302. |
| [4] | 彭华,王春雷,李吉超,王洪超,王美晓.Mg2Si的电子结构和热电输运性质的理论研究[J].物理学报,2010(06):4123-4129. |
| [5] | Jun-ichi Tani;Hiroyasu Kido .First-principles and experimental studies of impurity doping into Mg_2Si[J].Intermetallics,2008(3):418-423. |
| [6] | Masayasu Akasaka;Tsutomu Iida;Takashi Nemoto;Junichi Soga;Junichi Sato;Kenichiro Makino;Masataka Fukano;Yoshifumi Takanashi .Non-wetting crystal growth of Mg_2Si by vertical Bridgman method and thermoelectric characteristics[J].Journal of Crystal Growth,2007(1):196-201. |
| [7] | T. Aizawa;R. Song .Mechanically induced reaction for solid-state synthesis of Mg_2Si and Mg_2Sn[J].Intermetallics,2006(4):382-391. |
| [8] | 姜洪义,张联盟.用固相反应合成Mg2Si1-xGex热电固溶体[J].硅酸盐通报,2002(02):12-15. |
| [9] | 纪振鹏,周书才,艾文杰,杜志华,赵晓隆.Mg2Si金属间化合物微波固相合成研究[J].粉末冶金技术,2011(03):206-209,213. |
| [10] | Akasaka M;Iida T;Nishio K;Takanashi Y .Composition dependent thermoelectric properties of sintered Mg2Si1-xGex (x=0 to 1) initiated from a melt-grown polycrystalline source[J].Thin Solid Films: An International Journal on the Science and Technology of Thin and Thick Films,2007(22):8237-8241. |
| [11] | Zaitsev VK;Fedorov MI;Gurieva EA;Eremin IS;Konstantinov PP;Samunin AY;Vedernikov MV .Highly effective Mg2Si1-xSnx thermoelectrics[J].Physical review, B. Condensed matter and materials physics,2006(4):5207-1-5207-5-0. |
| [12] | Isoda Y;Nagai T;Fujiu H.Thermoelectrics properties of Sb-doped Mg2Si0.5Sn0.5[A].Vienna,Austria,2006:406-410. |
| [13] | Zhang Q;Zhao X B .High figure of merit and natural nanostructure in Mg2Si0.4Sn0 6 based thermoelectric materials[J].Aplied Physics Letters,2008,93:102-109. |
| [14] | XIN ZHANG;QING-MEI LU;LEI WANG;FEI-PENG ZHANG;JIU-XING ZHANG .Preparation of Mg_(2)Si_(1-x)Sn_(x) by Induction Melting and Spark Plasma Sintering, and Thermoelectric Properties[J].Journal of Electronic Materials,2010(9):1413-1417. |
| [15] | Nolas GS;Wang D;Beekman M .Transport properties of polycrystalline Mg2Si1-ySby (0 <= y < 0.4)[J].Physical review, B. Condensed matter and materials physics,2007(23):235204-1-235204-6-0. |
| [16] | Jun-ichi Tani;Hiroyasu Kido .Thermoelectric properties of Sb-doped Mg_2Si semiconductors[J].Intermetallics,2007(9):1202-1207. |
| [17] | Jun-ichi T;Hiroyasu K .Thermoeclectric properties of Bi-doped Mg2Si semiconductors[J].Physica B,2005,364:218-224. |
| [18] | Yasutoshi N;Hiroyu k .Preparation and thermoelectic properties of Mg2Si1-xGex(x=0-0.4) solid solution semiconductors[J].Materials Transactions,1992,33(09):845-850. |
| [19] | Kim, KH;Choi, SM;Seo, WS;Kim, IH;Kim, SU .Synthesis Characteristics and Thermoelectric Properties of the Rare-earth-doped Mg2Si System[J].Journal of the Korean Physical Society,2010(4 Pt.1):1072-1076. |
| [20] | Meng Q S;Wang L Q;Li B S et al.Thermoelectric properties of Y-doped Mg2Si prepared by field-activated and pressure-assisted reactive sintering[J].Current Advances in Materials and Processes,2009,79-82:1639-1642. |
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