The　efficient　performance　of　Solid　Oxide　Fuel　Cell　(SOFC)　by　utilizing　safe　and　cost　effective　hydrocarbon　fuels　at　low　temperature　is　really　a　challenging　task　due　to　C-H　activation　and　sluggish　oxidation/reduction　kinetics.　In　this　study　a　novel　[Sr0.4La0.6(Fe0.75Ti0.25)(0.6)Ni0.4O3-delta]　(SLFTNO)　nanocomposite　was　synthesized　via　solid　state　reaction　route　and　was　evaluated　electrochemically　in　presence　of　multifuels　such　as　hydrogen,　ammonia,　methane　and　ethanol.　Phase　purity　and　structural　analysis　was　carried　out　through　X-Ray　Diffractometer　(XRD),　X-ray　Photoelectron　Spectroscopy　(XPS),　Scanning　Electron　Microscope　(SEM)　and　Transmission　Electron　Microscope　(TEM).　The　average　crystallite　size　calculated　was　ranged　from　60-100　nm.　The　electrical　conductivity　and　power　density　was　measured　between　(89-226)　S/cm　and　(147-318)　mW/cm(2)　respectively　among　different　fuels.　This　study　indicated　the　synthesized　SLFTNO　nanocomposite　as　stable　and　efficient　multifuels　candidate　for　SOFCs.