Effects of growth-charge purity and perfection of Bi0.5Sb1.5Te3 single crystals on their thermoelectric properties

被引:2
作者
Ivanova, LD
Granatkina, YV
Scherrer, H
机构
[1] Russian Acad Sci, Baikov Inst Met & Mat Res, Moscow 117334, Russia
[2] EMN, Phys Mat Lab, F-54042 Nancy, France
来源
INORGANIC MATERIALS | 2000年 / 36卷 / 07期
关键词
Thermoelectric Property; Thermoelectric Power; Misorientation Angle; Perfect Crystal; Zmax;
D O I
10.1007/BF02758420
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Bi0.5Sb1.5Te3 crystals, undoped and doped with 4 mol % Bi2Se3, were grown by the floating-crucible technique, using starting materials of 99.9999 or 99.99% purity. The perfection of the crystals (mosaic blocks, second-phase inclusions, dislocation density) was correlated with growth conditions. The elemental composition of several samples was determined by electron probe x-ray microanalysis. The room-temperature electrical conductivity, thermal conductivity, thermoelectric power, carrier concentration, and effective mass and mobility of holes were determined. In the range from 100 to 400 K, the electrical conductivity, thermoelectric power, thermal conductivity, and thermoelectric figure of merit of the crystals were measured.
引用
收藏
页码:678 / 684
页数:7
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[21]   Crystal structure analysis and thermoelectric properties of p-type pseudo-binary (Al2Te3)x-(Bi0.5Sb1.5Te3)1-x (x=0 ∼ 0.2) alloys prepared by spark plasma sintering [J].
Cui, J. L. ;
Xue, H. F. ;
Xiu, W. J. ;
Mao, L. D. ;
Ying, P. Z. ;
Jiang, L. .
JOURNAL OF ALLOYS AND COMPOUNDS, 2008, 460 (1-2) :426-431
[22]   Effects of excess Te on the thermoelectric properties of p-type 25% Bi2Te3-75% Sb2Te3 single crystal and hot-pressed sinter [J].
Chang-Won Hwang ;
Dow-Bin Hyun ;
Heon-Phil Ha ;
Tae Sung Oh .
Journal of Materials Science, 2001, 36 :3291-3297
[23]   Properties of Bi2Te3 single crystals doped with Sn [J].
Svechnikova, TE ;
Nikhezina, IY ;
Polikarpova, NV .
INORGANIC MATERIALS, 2000, 36 (08) :765-767
[24]   Properties of Bi2Te3 single crystals doped with Sn [J].
T. E. Svechnikova ;
I. Yu. Nikhezina ;
N. V. Polikarpova .
Inorganic Materials, 2000, 36 :765-767
[25]   Crystal growth and thermoelectric properties of tetradymite-like layered chalcogenides and (Bi2Te3)1−x−y(Sb2Te3)x(Sb2Se3)y solid solutions [J].
T. E. Svechnikova ;
L. E. Shelimova ;
P. P. Konstantinov ;
M. A. Kretova ;
E. S. Avilov ;
V. S. Zemskov ;
C. Stiewe ;
E. Müller .
Inorganic Materials, 2006, 42 :1311-1317
[26]   Microstructure evolution and thermoelectric properties of Te-poor and Te-rich (Bi,Sb)2Te3 prepared via solidification [J].
Olu Emmanuel Femi ;
N. Ravishankar ;
K. Chattopadhyay .
Journal of Materials Science, 2016, 51 :7254-7265
[27]   Thermoelectric properties of tetradymite-like layered materials in the pseudoternary system Sb2Te3-GeTe-Bi2Te3 [J].
Gurbanov, G. R. .
INORGANIC MATERIALS, 2017, 53 (07) :675-681
[28]   Thermoelectric Properties of Layered Compounds and Multicomponent Solid Solutions in the Pseudoternary System Sb2Te3-PbTe-Bi2Te3 [J].
Gurbanov, G. R. .
INORGANIC MATERIALS, 2018, 54 (01) :17-20
[29]   Thermoelectric properties of tetradymite-like layered materials in the pseudoternary system Sb2Te3–GeTe–Bi2Te3 [J].
G. R. Gurbanov .
Inorganic Materials, 2017, 53 :675-681
[30]   Thermoelectric Properties of Layered Compounds and Multicomponent Solid Solutions in the Pseudoternary System Sb2Te3–PbTe–Bi2Te3 [J].
G. R. Gurbanov .
Inorganic Materials, 2018, 54 :17-20
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