Rationally constructing nitrogen–fluorine heteroatoms on porous carbon derived from pomegranate fruit peel waste towards an efficient oxygen reduction catalyst for polymer electrolyte membrane fuel cells
Literature Information
Prabakaran Varathan, Rahul S. Menon
N and F heteroatom dual-doping is directed to regulate the defects and texture of porous carbon derived from pomegranate fruit peel wastes (N–F/PGPC), and is responsible for creating active sites favorable for oxygen reduction reaction (ORR). The N–F/PGPC catalyst shows absolute tolerance to methanol and longer stability, with no degradation of ORR activity both in alkaline and acidic media, which makes it a potential metal-free ORR catalyst for the polymer electrolyte membrane fuel cell (PEMFC). The high electrocatalytic activity of N–F/PGPC is primarily due to the presence of hierarchical porous structure, maximum C–C bond polarization, charge re-distribution and high-spin-density-induced defects in the carbon matrices with the existence of N and F heteroatoms. Co-existence of N, in the form of pyridinic-N, pyrrolic-N, graphitic-N, active species, and F, in the form of C–F ionic and C–F semi-ionic active forms, synergistically enhances the ORR catalytic activity. This study offers a process for successfully transforming a highly abundant agricultural product to a commercially worthwhile, alternative low-cost ORR electrocatalyst that holds great promise towards PEMFCs.
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