Fe-N co-doped carbon materials (Fe-NC) have drawn increasing attention in advanced oxidation due to their unique structure and significant promise in heterogeneous catalysis. Herein, a Fe-N co-doped biochar catalyst was prepared by a simple pyrolysis method and was applicated to activate persulfate (PS) for the degradation of sulfamethoxazole (SMX) in wastewater. The catalytic performance of Fe-NBC was proportional to the pyrolysis temperature, and Fe-NBC-800 exhibited excellent PS activation performance with larger specific surface area (254.3 m2/g), higher defect (ID/IG = 1.04). Fe-NBC-800 exhibits high stability and reusability over multiple cycles, high catalytic activity over a wide pH range of 3-9 and good tolerance to inorganic anions. The intro-duction of nitrogen and iron into the carbon lattice leads to a redistribution of charge density in graphitic carbon, enhancing the interaction of PS with Fe-NBC-800 surface to form surface complexes and promoting charge transfer. Five major SMX degradation pathways are proposed, including the oxidation of nitro on the aniline ring,