Title :
Thermogravimetric Study and High-Temperature Thermoelectric Properties of [Ca2(Co1-xAx)O3]0.62CoO2
Author :
Oide, Y. ; Miyazaki, Y. ; Ono, Y. ; Huang, X.Y. ; Kajitani, T.
Author_Institution :
Dept. of Appl. Phys., Tohoku Univ., Sendai
Abstract :
Systematic ion substitution has been performed on the Co site in the rock-salt (RS)-type [Ca2CoO3] subsystem of misfit-layered cobalt oxide [Ca2(Co1-xAx)O3-delta] 0.62CoO2 (A = Nb, Ru, Ta, Pb, W, La and Zr). The oxygen deficiency delta and the decomposition temperature Td of the substituted samples have been determined by means of the thermogravimetric analysis (TGA). Upon heating, the oxygen atoms are gradually released from the RS-type subsystem up to delta~0.10. A small amount (x = 0.10) of the substitution remarkably increases Td from 1173 K (x = 0) up to 1246 K (A = Nb). The Pb-substituted samples show substantial decrease in electrical resistivity p from 19.2 mOmegacm to 13.8 mOmegacm (x = 0.10) at 950 K. The highest thermoelectric power, S2p-1 = 2.1times10-4 WK-2 m-1 , is realized for the Pb-substituted sample with x = 0.10 at 950 K
Keywords :
calcium compounds; electrical resistivity; pyrolysis; thermal analysis; thermoelectricity; 1173 K; 1246 K; 950 K; [Ca2(CoLa)O3]0.62CoO2; [Ca2(CoNb)O3]0.62CoO2; [Ca2(CoPb)O3]0.62CoO2; [Ca2(CoRu)O3]0.62CoO2; [Ca2(CoTa)O3]0.62CoO2; [Ca2(CoW)O3]0.62CoO2; [Ca2(CoZr)O3]0.62CoO2; decomposition temperature; electrical resistivity; heating; high-temperature thermoelectricity; ion substitution; thermogravimetry; Cobalt; Electric resistance; Heating; Niobium; Physics; Powders; Temperature dependence; Thermoelectricity; X-ray scattering; Zirconium;
Conference_Titel :
Thermoelectrics, 2006. ICT '06. 25th International Conference on
Conference_Location :
Vienna
Print_ISBN :
1-4244-0811-3
Electronic_ISBN :
1094-2734
DOI :
10.1109/ICT.2006.331282
