Scalable nitrogen-enriched porous sub-100 nm graphitic carbon nanocapsules for efficient oxygen reduction reaction in different media

Author(s)

Eid, Kamel; Abdelhafiz, Ali A.; Abdel-Azeim, Safwat; Varma, Rajender S.; Shibl, Mohamed F.

Abstract

The oxygen reduction reaction (ORR) is deemed a sustainable energy source; however, developing green, earth-abundant, and efficient noble-metal-free catalysts for efficient ORR in different media remains a grand challenge. Herein, we present a scalable, facile, environmentally benign, and one-pot strategy for the fabrication of eco-friendly nitrogen-enriched graphitic-like hierarchical porous sub-100 nm carbon (denoted as N-HMPC) nanocapsules with controllable N-content for ORR. The synthesis route is based on in situ organic-organic self-assembly of Pluronic F127 copolymer micelles and resorcinol–melamine–formaldehyde in the presence of a silica template followed by carbonization and eroding the silica core. The as-formed N-HMPC nanocapsules have a core–shell morphology (∼84 nm), hierarchical porosity, high surface area of (790 m2 g−1), and tunable nitrogen content (9–25%). Intriguingly, N-HMPC nanocapsules exhibit an analogous ORR activity to the commercial Pt/C catalyst (20% Pt) in the alkaline and acidic electrolytes, besides superior durability and inimitable tolerance to methanol and CO poisonings due to the hollow core–shell architecture and abundant nitrogen. A judicious combination of experimental and density functional theory (DFT) simulations delineated the ORR pathway and mechanism for N-HMPC in acidic and alkaline electrolytes. The presented approach may open new avenues for the rational design of metal-free green electrocatalysts for ORR.

Date issued

2023

URI

https://hdl.handle.net/1721.1/154131

Department

Massachusetts Institute of Technology. Department of Nuclear Science and Engineering

Journal

Green Chemistry

Publisher

Royal Society of Chemistry

Citation

Eid, Kamel, Abdelhafiz, Ali A., Abdel-Azeim, Safwat, Varma, Rajender S. and Shibl, Mohamed F. 2023. "Scalable nitrogen-enriched porous sub-100 nm graphitic carbon nanocapsules for efficient oxygen reduction reaction in different media." Green Chemistry, 25 (17).

Version: Final published version

ISSN

1463-9262

1463-9270

Keywords

Pollution, Environmental Chemistry