Powder aerosol deposited calcium cobaltite as textured P-type thermoelectric material with power factors approaching single crystal values

In this work, the thermoelectric material calcium cobaltite Ca3Co4O9 (CCO), a promising p-type conducting thermoelectric oxide with anisotropic properties, was processed by the powder aerosol deposition method (PAD) to form a dense ceramic CCO film with a thickness in the mu m range. The prepared films were characterized regarding their microstructure and thermoelectric properties between room temperature and 900 degrees C. After heat treatment at 900 degrees C, the CCO PAD film in-plane shows excellent properties in terms of electrical conductivity (280 S/cm at 900 degrees C) and Seebeck coefficient (220 mu V/K at 900 degrees C). The calculated power factor in-plane (ab) reaches with 1125 mu W/(m K2) 40 % of the single crystal value, surpassing the known-properties of CCO bulk ceramics. Examination of the microstructure shows a strong fiber texture of the film as well as a strong coarsening of the grains during the first heat treatment up to 900 degrees C.