Bismuth telluride nanostructures： preparation, thermoelectric properties and topological insulating effect 被引量：1

Bismuth telluride nanostructures： preparation, thermoelectric properties and topological insulating effect

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摘要 Bismuth telluride is known to wield unique properties for a wide range of device applications. However, as devices migrate to the nanometer scale, significant amount of studies are being conducted to keep up with the rapidly growing nanotechnological field. Bi2Te3 possesses distinctive properties at the nanometer level from its bulk material. Therefore, varying synthesis and characterization techniques are being employed for the realization of various Bi2Te3 nanostructures in the past years. A considerable number of these works have aimed at improving the thermoelectric （TE） figure-of-merit （ZT） of the Bi2Te3 nanostructures and drawing from their topological insulating properties. This paper reviews the various Bi2Te3 and Bi2Te3-based nanos- tructures realized via theoretical and experimental procedures. The study probes the preparation techniques, TE properties and the topological insulating effects of 0D, 1D, 2D and Bi2Te3 nanocomposites. With several applications as a topological insulator （TI）, the topological insulating effect of the Bi2Te3 is reviewed in detail with the time reversal symmetry （TRS） and surface state spins which characterize TIs. Schematics and preparation methods for the various nanostructural dimensions are accordingly categorized. Bismuth telluride is known to wield unique properties for a wide range of device applications. However, as devices migrate to the nanometer scale, significant amount of studies are being conducted to keep up with the rapidly growing nanotechnological field. Bi2Te3 possesses distinctive properties at the nanometer level from its bulk material. Therefore, varying synthesis and characterization techniques are being employed for the realization of various Bi2Te3 nanostructures in the past years. A considerable number of these works have aimed at improving the thermoelectric （TE） figure-of-merit （ZT） of the Bi2Te3 nanostructures and drawing from their topological insulating properties. This paper reviews the various Bi2Te3 and Bi2Te3-based nanos- tructures realized via theoretical and experimental procedures. The study probes the preparation techniques, TE properties and the topological insulating effects of 0D, 1D, 2D and Bi2Te3 nanocomposites. With several applications as a topological insulator （TI）, the topological insulating effect of the Bi2Te3 is reviewed in detail with the time reversal symmetry （TRS） and surface state spins which characterize TIs. Schematics and preparation methods for the various nanostructural dimensions are accordingly categorized.

作者 Eric ASHALLEY Haiyuan CHEN Xin TONG Handong LI Zhiming M. WANG

机构地区 Institute of Fundamental and Frontier Sciences State Key Laboratory of Electronic Thin Films and Integrated Devices

出处《Frontiers of Materials Science》 SCIE CSCD 2015年第2期103-125,共23页 材料学前沿（英文版）

关键词 Bi2Te3 nanostructure thermoelectric property topological insulator （TI） Bi2Te3 nanostructure thermoelectric property topological insulator （TI）

分类号 TB383 [一般工业技术—材料科学与工程] TN37 [电子电信—物理电子学]

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参考文献3

1Zhigang Chen,Guang Han,Lei Yang,Lina Cheng,Jin Zou.Nanostructured thermoelectric materials:Current research and future challenge[J].Progress in Natural Science:Materials International,2012,22(6):535-549. 被引量：20
2Xiaozong Chen a, Leifeng Liu b, Yuan Dong a, Lianjun Wang a, Lidong Chen c, Wan Jiang a, a State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, Donghua University, 2999 people of North Road, Shanghai 201620, PR China b Department of Materials and Environmental Chemistry, Stockholm University, SE-106 91 Stockholm, Sweden c Shanghai Institute of Ceramics, Chinese Academy of Sciences, 1295 Dingxi Road, Shanghai 200050, PR China.Preparation of nano-sized Bi_2Te_3 thermoelectric material powders by cryogenic grinding[J].Progress in Natural Science:Materials International,2012,22(3):201-206. 被引量：8
3JIN ChangQing,WANG XianCheng,LIU QingQing,ZHANG SiJia,FENG ShaoMin,DENG Zheng,YU RiCheng,ZHU JingLong.New quantum matters:Build up versus high pressure tuning[J].Science China(Physics,Mechanics & Astronomy),2013,56(12):2337-2350. 被引量：11

二级参考文献13

1X. B. Zhao,S. H. Yang,Y. Q. Cao,J. L. Mi,Q. Zhang,T. J. Zhu.Synthesis of Nanocomposites with Improved Thermoelectric Properties[J].Journal of Electronic Materials.2009(7) 被引量：1
2Hicks LD,Harman TC,Sun X,Dresselhaus MS.Experimental study of the effect of quantum-well structures on the thermoelectric figure of merit[].Physical Review B Condensed Matter and Materials Physics.1996 被引量：1
3Sales BC,Mandrus D,Chakoumakos BC,et al.Filled Skutterudite antimonides: electron crystals and phonon glasses[].Physical Review B: Condensed Matter and Materials Physics.1997 被引量：1
4Sales BC,Mandrus D,Williams RK.Filled skuterudite antimonides: a new class of thermoelectric materials[].Science.1996 被引量：1
5Hicks LD,Harman TC,Dresselhaus MS.Use of quantum-well superlattices to obtain a high figure of merit from nonconventional thermoelectric materials[].Applied Physics.1993 被引量：1
6Dismukes J P,Ekstrom L,Steigeier E F,et al.Thermal and Electrical Properties of Heavily Doped Ge-Si Alloys up to 1300K[].Journal of Applied Physics.1964 被引量：1
7Venkatasubramanian R,Siivola E,Colpitts T,et al.Thin-film thermoelectric devices with high room-temperature figures of merit[].Nature.2001 被引量：1
8Harman T C,Taylor P J,Walsh M P,et al.Quantum Dot Superlattice Thermoelectric Materials and Devices[].Science.2002 被引量：1
9Hsu KF,Loo S,Guo F,et al.:Bulk thermoelectric materials with high figure of merit[].Science.2004 被引量：1
10Wood C.Materials for thermoelectric energy conversion[].Reports on Progress in Physics.1988 被引量：1

共引文献36

1苏杰,马昊,李明军,郑树凯,刘磊.Zn-Sb化合物热电材料的研究进展[J].材料科学与工程学报,2014,32(2):307-312.
2段兴凯,胡孔刚,满达虎,丁时锋,江跃珍,郭书超.Na和Al双掺杂P型Bi_(0.5)Sb_(1.5)Te_3热电材料的制备及性能研究[J].稀有金属,2013,37(5):757-761. 被引量：5
3段兴凯,胡孔刚,满达虎,丁时锋,林伟明,金海霞.K、Al共掺杂Bi_(0.5)Sb_(1.5)Te_3热电材料的制备及性能[J].材料科学与工程学报,2013,31(5):668-671. 被引量：2
4段兴凯,胡孔刚,丁时锋,满达虎,金海霞,林伟明.K、Al共掺杂Bi_2 Te_(2.7) Se_(0.3)热电材料的制备及性能研究[J].功能材料,2014,45(1):86-88. 被引量：3
5徐建,杜成旭,杜颖妍,贾倩,刘洋华,毋志民.Mn掺杂LiZnN新型稀磁半导体磁电性质的第一性原理计算[J].计算物理,2018,35(6):711-719. 被引量：2
6叶晓军,周海峰,王荣杰,唐俊.热电发电技术的研究进展[J].应用能源技术,2014(8):33-37. 被引量：2
7Kai Wang,Shourui Li,Xiao Tan,Guanjun Xiao,Bingbing Liu,Bo Zou.High pressure supramolecular chemistry[J].Chinese Science Bulletin,2014,59(36):5258-5268. 被引量：1
8邓军权,毋志民,杨武庆,崔玉亭,胡爱元,赵若禺,王敏娣.新型稀磁半导体Cu掺杂LiMgN的电子结构和光学性质[J].科学通报,2015,60(9):830-837. 被引量：6
9段兴凯,胡孔刚,丁时锋,满达虎,金海霞.Na、Ga共掺杂对n型Bi_2Te_(2.7)Se_(0.3)电热输运性能的影响[J].材料科学与工程学报,2015,33(1):26-30. 被引量：1
10段兴凯,胡孔刚,丁时锋,满达虎,金海霞.温差电材料Bi_(0.5)Sb_(1.5)Te_3双掺杂调控及热电性能研究[J].电源技术,2015,39(9):1926-1928. 被引量：1

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1新型低成本纤维“电毡“可利用体热给ipod充电[J].上海纺织科技,2012(4):63-63.
2科学家发现计算机芯片制造新材料[J].现代材料动态,2009(8):24-24.
3科学家发现计算机芯片制造新材料[J].计算机研究与发展,2009,46(8):1416-1416.
4计算机芯片制造新材料[J].光学精密机械,2009(2):32-33.
5朱凯,田岱,伍琳,许建丽,金晓峰.Impurity effect on surface states of Bi(111) ultrathin films[J].Chinese Physics B,2016,25(8):335-339.
6周欢欢,檀柏梅,张建新,牛新环,王如,潘国峰.Bi_2Te_3热电材料研究现状[J].半导体技术,2011,36(10):765-770. 被引量：12
7蒋俊,李亚丽,许高杰,崔平,陈立东,王刚.额外Te的掺杂量对P型碲化铋基合金热电性能的影响[J].稀有金属材料与工程,2007,36(A02):404-407. 被引量：1
8张骐昊,徐磊磊,王连军,江莞.Se掺杂量对n型Bi_2Te_(3-x)Se_x微结构及热电性能的影响[J].无机材料学报,2014,29(11):1139-1144. 被引量：6
9RAFESPA热流传感器[J].传感器世界,2016,0(5):50-50.
10Oliver Eibl,彭金平.热电纳米材料碲化铋（Bi2Te3）[J].国外科技新书评介,2015,0(12):10-11.

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