In this work we have studied the effect of Ni concentration on phase stability, microstructure and electrical properties of BaCe_0.8Y_0.2O_3-δ(BCY)-Ni cermet SOFC anode. It has been seen that Ni forms composite with BCY without forming any solid solution in both oxidized and reduced state. Also, microstructural analysis reveals the effect of Ni on porosity and triple phase boundaries necessary for electrochemical reactions during cell operation. Electrical conductivity values obtained from dc four probe technique inH2atmosphere increase with an increase in Ni content. Composites with low vol% of Ni contents i.e.19% (Ni19) and 26% (Ni26) show predominantly semiconductor-like behaviour whereas higher vol% viz.35% (Ni35), 45% (Ni45) and 56% (Ni56) composites show electronic conductivity behaviour. This confirms that electronic conduction occurs through metallic Ni phase. Also, anode supported single cell for proton conducting SOFC has been fabricated using Ni35 composition and its current-potential characteristics measured at different temperatures.