Abstract
Porous carbon derived from silk cotton and heteroatom engineering is explored in this study for developing metal-free electrocatalysts for oxygen reduction (ORR). Individual and dual doping of N and F heteroatoms was conducted to regulate defects and the pore geometry to the porous carbon matrix. Microscopic analysis of N–F co-doped cotton carbon (N–F/CTC) undergoes morphological amendments in its textural properties and defects responsible in creating active sites for ORR. N–F/CTC catalyst exhibits excellent ORR catalytic activity and methanol and CO tolerance in the alkaline medium, which makes it a potential metal-free ORR catalyst for the polymer electrolyte membrane fuel cell. N–F/CTC catalyst is subjected to 10 000 repeated potential cycles with no degradation in its activity. XPS analysis of N–F/CTC catalyst revealed the presence 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. The maximum C–C bond polarization...
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