Achieving high figure-of-merit in Nb-doped Na0.74CoO2 compound at high temperature region

Abstract

We report the thermoelectric (TE) properties of Na0.74Co0.95Nb0.05O2 in the temperature range 300-1200 K, as a potential candidate for p-type thermoelectric material. The experimental values of Seebeck coefficient (S) are 82-121 μ V/K measured in the temperature range 300-620 K. The positive values of S in the entire temperature range indicates p-type behaviour of the compound. At 300 K the experimental value of thermal conductivity ( ) is 1.88 W/m-K that increases up to 420 K, then decreases till 620 K with corresponding value 1.86 W/m-K. To understand the experimentally observed transport properties, we have calculated S and of this compound. Then, based on theoretical understanding, we have estimated figure-of-merit (ZT) up to 1200 K by using calculated S and values with extrapolated experimental . The value of ZT is found to be 0.03 at 300 K, whereas, the highest value is observed as 1.7 at 1200 K. Finally, we have calculated the efficiency (η) by keeping the cold end temperature (Tc) fixed at 500 K and varying hot end temperature (Th) from 500 to 1200 K, respectively. The maximum value of η is found to be 8 %, when Tc and Th are fixed at 500 and 1200 K, respectively. This result suggests that Na0.74Co0.95Nb0.05O2 compound can be used as a p-leg for making high temperature TE generator (TEG).