High energy consumption in pyrolyzing
precursors for
catalyst preparation
would limit the application of nitrogen-doped carbon-based single-atom
catalysts in actual pollutant remediation. Herein, we report an Fe
single atom (7.67 wt %) loaded polyaniline catalyst (Fe-PANI) prepared
via a simple impregnation process without pyrolysis. Both experimental
characterizations and density functional theory calculations demonstrated
that isolated −N group sites can fasten Fe atoms through
Fe–N coordination in PANI, leading to a high stability of Fe
atoms in a heterogeneous Fenton reaction. Highly dispersive yet dense
−N groups in PANI can be protonated to be adsorption
sites, which largely reduce the migration distance between reactive
radicals and organics. More significantly, frontier molecular orbitals
and spin-density distributions reveal that electrons can transfer
from reduction groups of PANI to an Fe(III) site to accelerate its
reduction. As a result, a remarkably boosted degradation behavior
of organics under near-neutral conditions (pH 6), with low H2O2 concentration, was achieved. This cost-effective Fe-PANI
catalyst with high catalytic activity, stability, and adsorption performance
has great potential for industrial-level wastewater treatment.
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