Bi_2Te_3及其固溶体金金是目前室温附近发展最为成熟、性能最好的一类热电材料,在热电制冷及温差发电方面具有广阔的应用前景.如何最大限度地提高材料的热电优值是当今热电材料研究的主要问题.传统块体Bi_2Te_3基热电材料的最高ZT值只能达到1.0左右,而低维化、纳米化的Bi_2Te_3基热电材料可使电子和声子的传输得到合理调控,从而大幅提升材料的热电性能.综述了二维纳米薄膜、一维纳米线(管、棒)和准零维纳米颗粒等低维Bi_2Te_3基热电材料的最新研究进展,并结合目前的研究状况展望了今后的研究重点及发展方向.
Bi_2Te_3 and its solid solution alloys are the most maturely developed thermoelectric(TE) materials under room temperature with the broad application prospect in the thermoelectric refrigeration and generation techno-logy. It is the key problem to fully improve the thermoelectric figure of merit (ZT). The ZT of traditional bulk Bi_2Te_3 based materials is limited to around 1.0. However, low dimensional or nanostructured Bi_2Te_3 based materials can re-gulate the transport of electron and phonon reasonably, resulting in the enhancement of the thermoelectric perfor-mances. In this article, recent research results of low-dimensional Bi_2Te_3 thermoelectric materials in different dimen-sions such as nanofilm(two-dimension), nanowire, nanotube, nanorod (one-dimension) and nanoparticle(near zero-di-mension) are discussed. The research focus and future directions are presented based on the current state.
参考文献
| [1] | Dresselhaus M S;Dresselhaus G et al.Low-dimensional thermoelectric materials[J].Physics of the Solid State,1999,41:679. |
| [2] | Disalvo F J .Thermoelectric cooling and power generation[J].Science,1999,285:703. |
| [3] | 夏建白;朱邦芬.半导体超品格物[M].上海:上海科学技术出版社,1995:195. |
| [4] | Balandin A.;Wang KL. .Effect of phonon confinement on the thermoelectric figure of merit of quantum wells[J].Journal of Applied Physics,1998(11):6149-6153. |
| [5] | Venkatasubramanina R;Siivola E;Colpitts T .Thin-film thermoelectric devices with high room-temperature figures of merit[J].NATURE,2001,413:597. |
| [6] | Rajasekar K et al.Thermal sensors based on Sb_2Te_3 and (Sb_2Te_3)_(70) (Sb_2Te_3)_(30) thin films[J].Ionics,2008,14:69. |
| [7] | Ebe H;Ueda M;Ohtsuka T .Electrodeposition of Sb,Bi,Te,and their alloys in AlCl_3-NaCl-KCl molten salt[J].Electrochimica Acta,2007,53:100. |
| [8] | Zhu W;Yang JY;Zhou DX;Mao CJ;Duan XK .Electrochemical atom-by-atom growth of highly uniform thin sheets of thermoelectric bismuth telluride via the route of ECALE[J].Journal of Electroanalytical Chemistry: An International Journal Devoted to All Aspects of Electrode Kinetics, Interfacial Structure, Properties of Electrolytes, Colloid and Biological Electrochemistry,2008(1/2):41-48. |
| [9] | Zhu W;Yang JY;Zhou DX;Xiao CJ;Duan XK .Electrochemical aspects and structure characterization of VA-VIA compound semiconductor Bi2Te3/Sb2Te3 superlattice thin films via electrochemical atomic layer epitaxy[J].Langmuir: The ACS Journal of Surfaces and Colloids,2008(11):5919-5924. |
| [10] | Michel S;Diliberto S;Stein N;Bolle B;Boulanger C .Characterisation of electroplated Bi-2(Te1-xSex)(3) alloys[J].Journal of solid state electrochemistry,2008(1):95-101. |
| [11] | Liu D W;Liz J E .Electrocrystallization process during deposition of Bi-Te films[J].Journal of the Electrochemical Society,2008,155:D493. |
| [12] | Peng XS.;Wang XF.;Wang YW.;Zhao LX.;Meng GW.;Zhang LD.;Zhang J. .Synthesis of highly ordered CdSe nanowire arrays embedded in anodic alumina membrane by electrodeposition in ammonia alkaline solution[J].Chemical Physics Letters,2001(5-6):470-474. |
| [13] | Li L et al.Pulsed electrodeposition of single-crystalline Bi_2Te_3 nanowire arrays[J].Nanotechnology,2006,17:1706. |
| [14] | Trahey L;Becker CR;Stacy AM .Electrodeposited bismuth telluride nanowire arrays with uniform growth fronts[J].Nano letters,2007(8):2535-2539. |
| [15] | Lee J;Farhangfar S;Lee J;Cagnon L;Scholz R;Gosele U;Nielsch K .Tuning the crystallinity of thermoelectric Bi2Te3 nanowire arrays grown by pulsed electrodeposition[J].Nanotechnology,2008(36):365701-1-365701-8-0. |
| [16] | Li XH;Zhou B;Pu L;Zhu JJ .Electrodeposition of Bi2Te3 and Bi2Te3 derived alloy nanotube Arrays[J].Crystal growth & design,2008(3):771-775. |
| [17] | Wang W;Lu XL;Zhang T;Zhang GQ;Jiang WJ;Li XG .Bi2Te3/Te multiple heterostructure nanowire arrays formed by confined precipitation[J].Journal of the American Chemical Society,2007(21):6702-6703. |
| [18] | Xiao F;Yoo BY;Lee KH;Myung NSV .Electro-transport studies of electrodeposited (Bi(1-x)Sbx)(2)Te-3 nanowires[J].Nanotechnology,2007(33):35203-1-35203-5-0. |
| [19] | Yoo B Y;Xiao F et al.Electrodeposition of thermoelectric superlattice nanowires[J].Advanced Materials,2007,19:296. |
| [20] | 赵涛,孙蓉,冷静,杜如虚,张治军.液相法制备(亚)铁磁性纳米材料[J].化学进展,2007(11):1703-1709. |
| [21] | Purkayastha, A;Lupo, F;Kim, S;Borca-Tasciuc, T;Ramanath, G .Low-temperature, template-free synthesis of single-crystal bismuth telluride nanorods[J].Advanced Materials,2006(4):496-500. |
| [22] | Purkayastha A;Yan Q Y;Makala S .Surfaetant-directed synthesis of branched bismuth telluride/sulfide core/shell nanorods[J].Advanced Materials,2008,20:2679. |
| [23] | Zhao XB;Sun T;Zhu TJ;Tu JP .In-situ investigation and effect of additives on low temperature aqueous chemical synthesis of Bi2Te3 nanocapsules[J].Journal of Materials Chemistry: An Interdisciplinary Journal dealing with Synthesis, Structures, Properties and Applications of Materials, Particulary Those Associated with Advanced Technology,2005(16):1621-1625. |
| [24] | Cao Y Q;Zhu T J;Zhao X B .Thermoelectric Bi_2Te_3 nanotubes synthesized by low-temperature aqueous chemical method[J].Journal of Alloys and Compounds,2008,449:109. |
| [25] | Xiao F;Yoo B;Lee KH;Myung NV .Synthesis of Bi2Te3 nanotubes by galvanic displacement[J].Journal of the American Chemical Society,2007(33):10068-10069. |
| [26] | 罗婷,任山.纳米技术在提高热电材料性能上的应用现状及发展趋势[J].材料导报,2006(02):50-53. |
| [27] | Zhang Y H;Zhu T J;Zhao X B et al.Flower-like nanostructure and thermoelectric properties of hydrothermally synthesized La-containing Bi_2Te_3 based alloys[J].Materials Chemistry and Physics,2007,103:484. |
| [28] | Jiang Y et al.Microwave-assisted preparation of Bi_2Te_3 hollow nanospheres[J].Chemistry Letters,2007,36:382. |
| [29] | Lu W G;Ding Y;Wang Z L et al.Bismuth telluride hexagonal nanoplatelets and their two-step epitaxial growth[J].Journal of the American Chemical Society,2005,127:10112. |
| [30] | Fan XA;Yang JY;Xie Z;Li K;Zhu W;Duan XK;Xiao CJ;Zhang QQ .Bi2Te3 hexagonal nanoplates and thermoelectric properties of n-type Bi2Te3 nanocomposites[J].Journal of Physics, D. Applied Physics: A Europhysics Journal,2007(19):5975-5979. |
| [31] | 张臣.纳米材料的一颗新星--半导体量子点材料[J].新材料产业,2003(05):65. |
| [32] | 邢学玲,闵新民.声子玻璃电子晶体和低维热电材料的研究进展[J].材料导报,2007(02):19-21,25. |
| [33] | Harman T C et al.Quantum dot superlattice thermoelectric materials.and devices[J].Science,2002,297:2229. |
| [34] | 柯扬船;皮特·斯壮.聚合物-无机纳米复合材料[M].北京:化学工业出版社,2002:43. |
| [35] | Zhao L D;Zhang B P;Li J F et al.Thermoelectric and mechanical properties of nano SiC dispersed Bi_2Te_3 fabricated by mechanical alloying and spark plasma sintering[J].Journal of Alloys and Compounds,2008,455:259. |
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