Abstract

Abstract Transition metal nitrides are of considerable interest for energy conversion and storage applications. Given this, synthesis of nanostructured 3D transition metal nitrides is of contemporary interest. Here, a hard templating simple and efficient pathway to synthesize 3D ordered‐mesoporous ternary nitrides NiCo 2 N is reported using the mesoporous silica KIT‐6 hard template. Benefitting from its large surface area and accessible pores, uniform shape, and enhanced infiltration capacity for electrolyte, mesoporous NiCo 2 N demonstrates superior electrode performance for oxygen evolution reaction (OER) in alkaline medium. As‐synthesized mesoporous ternary nitride NiCo 2 N shows desirable performance with very low overpotential (289 mV), and yields ≈10 mA cm −2 geometric current density. This is lower than the values of IrO 2 and that of mesoporous binary nitrides CoN and Ni 3 N electrocatalysts. NiCo 2 N shows a small Tafel slope and smallest semicircle. Moreover, as‐synthesized NiCo 2 N exhibits low loss of activity after 10 h test for OER in alkaline solution. This work explores a promising way to produce OER electrocatalyst Co–Ni‐based ternary nitrides for water splitting applications.