Abstract
Developing high-activity bifunctional oxygen electrocatalysts to overcome the sluggish 4e- kinetics is an urgent challenge for rechargeable metal-air batteries. Here, we prepared a CoN nanosheet catalyst with rich nitrogen defects (CoN-Nd) through solvothermal and low-temperature nitridation. Notably, the study finds for the first time that only Co LDH materials can be mostly converted to CoN-Nd under the same nitriding conditions relative to different Co-based precursors. Experiments indicate that the constructed CoN-Nd catalyst exhibits preeminent electrocatalytic activities for both oxygen evolution reaction (g10 = 243 mV) and oxygen reduction reaction (JL = 5.2 mA cm-2). Moreover, the CoN-Nd-based Zincair battery showed a large power density of 120 mW cm-2 and robust stability over 260 cycles, superior to the state-of-art Pt/C + RuO2. The superior performance is attributed to a large number of defects formed by the disordered arrangement of local atoms on the catalyst that facilitate the formation of more active sites, and alternate array-like structures thereof improving electrolyte diffusion and gas emission. Journal of Colloid and Interface Science 608 (2022) 2066-2074 CO 2021 Elsevier Inc. All rights reserved.