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Conference paper

Effects of Synthesis and Processing on the Thermoelectric Properties of Ca3Co4O9+δ

By Wu, NingYu1,2; Holgate, Tim1,2; Van Nong, Ngo1,2; Pryds, Nini1,2; Linderoth, Søren1,3

From

Department of Energy Conversion and Storage, Technical University of Denmark1

Electrofunctional materials, Department of Energy Conversion and Storage, Technical University of Denmark2

Management, Department of Energy Conversion and Storage, Technical University of Denmark3

In the present study, Ca3Co4O9+δ was synthesized by solid-state and sol-gel reactions followed by spark plasma sintering (SPS) under different conditions such as sintering temperatures, applied pressures and ramping rates. The materials were then characterized with respect to their microstructure, phase purity and thermoelectric properties.

With the identical optimal SPS process, the power factor of about 400 µW/m•K2 and 465 µW/m•K2 (at 800 °C) is measured from samples produced by solid-state and sol-gel reactions respectively, both of these values are higher than the value reported so far. The thermoelectric performance improvement observed for the solid-state and sol-gel reactions suggests that the particle sizes may be a predominant key parameter of the Ca3Co4O9+δ thermoelectric properties.

Smaller particle size (500 nm) as produced in this study by sol-gel synthesis method with optimal SPS process conditions would be a better way to fabricate high performance thermoelectric material Ca3Co4O9+δ.

Language: English
Year: 2012
Proceedings: 31st International & 10th European Conference on Thermoelectrics
Types: Conference paper
ORCIDs: Van Nong, Ngo , Pryds, Nini and Linderoth, Søren
Keywords

Ca3Co4O9+δ Sol-gel reaction Solid-state reaction Spark plasma sintering Thermoelectrics

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