Title :
Micro-fabrication of Bi2Te3 by using micro-jet
Author :
Miyazaki, K. ; Lida, T. ; Tsukamoto, H.
Author_Institution :
Dept. of Biol. Functions & Eng., Kyushu Inst. of Technol., Kitakyushu, Japan
Abstract :
We developed a micro-fabrication technique for bismuth telluride. Bismuth telluride powder was spread on a carbon sheet. The spread thin layer of bismuth telluride was fixed by micro-jet printing a binder (acetone based butadiene homopolymer). The dimensions of the beam were 0.95 mm width, 12 mm length, and 0.75 mm thickness. The samples fixed by a binder were sintered at 400, 450, and 480°C for 4 hours. We also sintered the samples at 480°C for 2, 3, and 4 hours. The thermoelectric properties of the samples, such as the Seebeck coefficient, the electric resistivity, and the thermal conductivity, were measured at a room temperature to optimize parameters for sintering. The highest figure of merit of fabricated devices at room temperature was 4.1×10-4 K-1 in the present study.
Keywords :
Seebeck effect; bismuth compounds; materials preparation; microassembling; sintering; thermal conductivity; thermoelectricity; 0.75 mm; 0.95 mm; 12 mm; 2 h; 3 h; 4 h; 400 C; 450 C; 480 C; Bi2Te3; Seebeck coefficient; acetone based butadiene homopolymer binder; electric resistivity; figure of merit; micro-fabrication; micro-jet; micro-jet printing; thermal conductivity; thermoelectric properties; Bismuth; Conductivity measurement; Electric resistance; Electric variables measurement; Powders; Printing; Temperature; Thermal conductivity; Thermal resistance; Thermoelectricity;
Conference_Titel :
Thermoelectrics, 2003 Twenty-Second International Conference on - ICT
Print_ISBN :
0-7803-8301-X
DOI :
10.1109/ICT.2003.1287594
