Solid state ionic devices based on high-temperature proton conductors can be used for various applications, especially in a new class of fuel cells, the Protonic Ceramic Fuel Cell (SOFC-H+). These systems are currently operating at intermediate temperatures (500-600 degrees C) and one of the major problems is the over-potential at the cathode side. In this context, various perovskite oxides AMO(3-delta) (A = La, Ba, Sr; M = Mn; Fe, Co, Ni) and A(2)MO(4)-type compounds (A = La, Nd, Pr or Sr; M = Ni) have been investigated. Their properties under moist cathodic atmosphere have been studied. Actually, they are stable and exhibit high electrical conductivity (sigma > 100 S cm(-1)) as well as good electrocatalytic properties towards oxygen reduction. The electrochemical properties of these oxides deposited on the protonic electrolyte BaCe0.9Y0.1O3-delta have been studied and the Area Specific Resistances have been measured under air/H2O (3%) atmosphere. The obtained values at 600 degrees C, especially for Ba0.5Sr0.5Fe0.8Co0.2O3-delta and Pr2NiO4+delta show to be promising cathode materials for Protonic Ceramic Fuel Cell applications. (C) 2010 Elsevier Ltd. All rights reserved.