Super-Dispersed Fe–N Sites Embedded into Porous Graphitic Carbon for ORR: Size, Composition and Activity Control

Abstract: Searching for high-efficient, good long-term stability, and low-cost electrocatalysts toward oxygen reduction reaction (ORR) is highly desirable for the development of sustainable energy conversion devices. Iron–nitrogen doped carbon (Fe–N/C) catalysts have been recognized as the most promising candidates for traditional Pt-based catalysts that benefit from their high activity, excellent anti-poisoning ability, and inexpensiveness. Here, a super-dispersed and high-performance Fe–N/C catalyst was derived from c… Show more

“…However, organic compounds have also been vouched as a vital source for graphene synthesis. 42–44 In recent years, emphasis has been placed on graphene synthesis from various bio-precursors due to economic viability. 27,45–48 For a variety of compelling reasons, biomass-derived graphene is proliferating.…”

Scalable production of reduced graphene oxide via biowaste valorisation: an efficient oxygen reduction reaction towards metal-free electrocatalysis

“…However, organic compounds have also been vouched as a vital source for graphene synthesis. 42–44 In recent years, emphasis has been placed on graphene synthesis from various bio-precursors due to economic viability. 27,45–48 For a variety of compelling reasons, biomass-derived graphene is proliferating.…”

Scalable production of reduced graphene oxide via biowaste valorisation: an efficient oxygen reduction reaction towards metal-free electrocatalysis

Recent Progress in ZIF‐Derived Carbons for Enhanced Oxygen Reduction Reaction Electrocatalysis

Fe3C nanoclusters integrated with Fe single-atom planted in nitrogen doped carbon derived from truncated hexahedron zeolitic imidazolate framework for the efficient transfer hydrogenation of halogenated nitrobenzenes