Anchoring perovskite LaMnO₃ nanoparticles on biomass−derived N, P co−doped porous carbon for efficient oxygen reduction

We propose a new perovskite/carbon composite of LaMnO₃ nanoparticles anchored on N and P co-doped porous carbon as an efficient electrocatalyst for oxygen reduction reaction (ORR) in alkaline solution. A facile two-step method is applied for the synthesis of such composite, involving the pyrolysis of cheap, abundant and renewable natural okara with the formation of N and P co-doped porous carbon for the first step, and the deposition of LaMnO₃ nanoparticles on the carbon surface by sol-gel synthesis at the second step. A synergistic effect is built between the LaMnO₃ nanoparticles and the porous carbon substrate, resulting in obviously improved ORR activity as compared with the individual N, P co-doped carbon and the nanosized LaMnO₃ electrocatalysts, in terms of onset potential, limiting current density, and stability. The LaMnO₃/N, P co-doped carbon composites further evaluated as an air electrode in a Zn-air battery, demonstrating attractive performance, including high discharge voltage plateau (∼1.2 V) and excellent stability with negligible degradation in voltage at 25 mA cm⁻¹ discharge current for 24 h. The present results highly promise the LaMnO₃/biocarbon nanocomposite as a potential metal-free ORR electrocatalyst, which may find a wide use in metal-air batteries or fuel cells.