The role of the presence of Ag atom in Pd3Ag(111) surface on the adsorption of N and H atoms and NH species was studied by using first principles calculations based on density functional theory (DFT). The adsorption energies of N and NH species are weakened by at least 0.50 eV when Ag atom is one of the nearest neighbors, in contrast to the case of H, in which the adsorption energies are weakened by at most 0.15 eV. Local density of stares ([DOS) profiles show that for N and NH adsorption near the silver alloy atom, the derived anti bonding stares are shifted below the Fermi level and hence the adsorption energy is weakened on the alloyed surface. In the presence of adsorbed N, the adsorption energies of H on the nearby sires are also reduced. Nonetheless, this reductions in H adsorption energies on the most stable sires are lower in Pd3Ag(111) surface. NH formations with H moving across the Pd atom on both surfaces show comparable activation barriers but the barrier is increased by 0.2-0.3 eV when the formation happens across Ag atom. (C) 2014 Elsevier B.V. All rights reserved.