Iron and boron-doped carbonized zeolitic imidazolate frameworks as efficient oxygen reduction electrocatalysts for Al-Air batteries.

Porous boron-bearing Fe-nitrogen doped carbon electrocatalysts (Fe-BNC) are prepared by pyrolysis treatment of Fe/B co-doped zeolitic imidazolate frameworks (ZIFs). The as-obtained Fe-BNC catalysts with a high surface area (1300 m2 g−1) favor a 4-electron reduction pathway for efficient oxygen reduction reaction (ORR). The Fe-BNC catalysts demonstrate a half-wave potential of ∼0.85 V vs RHE comparable to that of Pt/C catalyst and high stability in 0.1 M KOH. The dopant of little boron and iron into nitrogen-doped carbon results in the high surface area, enhanced surface polarities, electronic properties and exposing more active sites to introduce a synergistic effect for enhanced ORR performance. Moreover, Fe-BNC electrocatalysts used as air cathode for Al-air batteries exhibit a high peak power density of 195.2 mw cm−2 and excellent stability even after discharging for 24 h at room temperature, revealing an excellent performance in application of metal-air batteries and other energy converting devices. Porous boron-bearing Fe-nitrogen doped carbon electrocatalysts (Fe-BNC) with low loading of Fe and B species prepared by pyrolysis treatment demonstrate efficient electrocatalytic oxygen reduction and excellent metal-air battery performance. [Display omitted] • The Fe-BNC is successfully fabricated by a facile chemical doping method. • The ZIF structure is maintained even after high temperature pyrolysis process. • The Fe-BNC catalyst displays high ORR activity and stability. • It confirms the incorporating of B, Fe into N -doped carbon improves ORR activity. • The Fe-BNC as electrode for Al-air battery also delivers excellent performance. [ABSTRACT FROM AUTHOR]