Fabrication of p- and n-type Thermoelectric Cobalt Oxides through the Powder-In-Tube Method

Abstract

We report the synthesis and the physical characterization of p- and n-type thermoelectric oxides, i.e. respectively NaxCoO 2 with x nominally close to 0.75 and LaNi1-xCoxO3 with x nominally equal to 0.3, materials that can be used to build unicouples and therefore thermoelectric modules. In order to take advantage of the anisotropy of the NaxCoO2 crystal structure and of the resistivity, the powder-in-tube method usually used to fabricate superconducting tapes has been employed for the first time to produce thermoelectric wires and tapes, also based on the similarity between the thermoelectric cobalt oxides and the superconducting cuprates. Connectivity was improved through drawing, while texturing was induced in tapes through flat-rolling. This made it possible to significantly reduce the resistivity value, thus enhancing the power factor and the figure of merit of such oxides. Various cold working procedures have been exploited: this method is a fast, reliable way to produce TE legs on a large scale and it has been applied also to the production of the n-type LaNi1-xCoxO3