Abstract

CaZr0.9In0.1O3-δ ceramics is a good candidate for hydrogen sensing applications due to its protonic conductivity in humid or hydrogen-containing atmospheres combined with high chemical stability and mechanical properties. In order to decrease the material's ohmic resistance and the path length of proton diffusion and thus increasing the efficiency and dynamic response, homogeneous and dense CaZr0.9In0.1O3-δ ceramic membrane was prepared by a tape casting process. The rheological behavior of the slurries and the characterization of the green tape and membrane were carried out. The dispersion of the ceramic powder in the slurry was optimized by ball milling an azeotropic mixture of methyethylketone and ethanol as the solvent, 1wt.% triethanolamine as the dispersant, polyethylene glycol and dibutyl phthalate as the plasticizer, and 7wt.% polyvinyl butral as the binder (plasticizer/binder=1.5:1) for 5h. The electrical properties of the CaZr0.9In0.1O3-δ membrane in both air and hydrogen were investigated by electrochemical impedance spectroscopy. And a bulk conductivity of 1.3×10−3S·cm−1 at 900°C with the activation energy of 0.64eV for the CaZr0.9In0.1O3-δ membrane in hydrogen were reached. In addition, hydrogen permeation experiment shows that the CaZr0.9In0.1O3-δ membrane is a good proton conductor.

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