Abstract
In this study, a one-step hydrothermal preparation strategy was employed to synthesize a graphitic carbon nitride (g-C3N4) composite photocatalyst co-decorated with Fe sites and carbon quantum dots (Fe–CQDs/g-C3N4). Through a series of characterisation techniques, the successful integration of Fe atoms and carbon quantum dots (CQDs) onto g-C3N4 was achieved. Moreover, the presence of Fe, specifically Fe–N bonds, enhanced the charge-carrier transfer. With carbamazepine (CBZ) as the model pollutant, Fe–CQDs/g-C3N4 increased the photocatalytic activity with efficient peroxymonosulfate (PMS) activation under solar light irradiation, achieving 100% CBZ degradation in 15min over a wide pH range (3–9). Doping of the catalyst with Fe and CQDs resulted in a narrowing of the catalyst bandgap (2.25eV) compared to that of g-C3N4 (2.79eV), confirming the promotion of photo-induced charge separation. The CBZ degradation pathways were elucidated by ultrahigh-performance liquid chromatography and high-definition mass spectrometry. The Fe–CQDs/g-C3N4 composite was found to possess substantial potential for the efficient degradation of pollutants.
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