Ternary nickel-cobalt-manganese spinel oxide nanoparticles as heterogeneous electrocatalysts for oxygen evolution and oxygen reduction reaction

Multimetallic nanostructure spinels composed of nickel, cobalt, and manganese ions were synthesized and their bifunctional catalytic activity towards oxygen evolution and oxygen reduction reaction in alkaline pH is reported. Three different compositions, namely, NiCoMnO4, Ni1.5Co0.72Mn0.75O4, and Ni2Co0.5Mn0.5O4 were prepared by a simple template-free hydrothermal route followed by a thermal treatment in air at 600 degrees C. The ORR/OER activity and the stability of these ternary metal oxides strongly depend on the composition of transition metals. The best performing Ni1.5Co0.75Mn0.75O4 catalyst exhibits modest OER and ORR activity with an over potential difference (Delta E = E-ORR-E-OER) of 0.79 V vs. RHE between two reactions in alkaline solution, comparable to expensive and supported IrO2, Pt catalysts. Electrochemical studies and extensive physical characterizations indicated that amount of nickel substituted in the crystal lattice influence the bifunctional catalytic activity of the studied ternary metal oxide compositions.