Ascorbic acid promoted sulfamethoxazole degradation in MIL-88B(Fe)/H2O2 Fenton-like system

In this work, the presence of ascorbic acid (AsA) in MIL-88B(Fe)/H2O2 system was demonstrated to significantly increase the sulfamethoxazole (SMX) degradation efficiency. The SMX degradation rate in AsA/MIL-88B(Fe)/ H2O2 system was 0.177 L/(mg center dot min), which was 60 times that of the MIL-88B(Fe)/H2O2 system. Moreover, the study shows that AsA not only promotes SMX degradation in Fenton-like systems but also expands its pH application range. The effect of coexisting anions on the catalytic performance of the AsA/MIL-88B(Fe)/H2O2 system was also investigated. Then, reactive species were detected via quenching experiments, which indicated center dot OH as the dominant free radical contributing to SMX degradation. Meanwhile, ESR determinations confirmed the existence of center dot OH and O2 -center dot in AsA/MIL-88B(Fe)/H2O2 system. The high activity of the AsA/MIL-88B(Fe)/ H2O2 system was attributed to the effective surface Fe(III)/Fe(II) cycle promoted by AsA, and a possible mechanism of the AsA/MIL-88B(Fe)/H2O2 system is proposed. The possible pathways for SMX and AsA degra-dation in the AsA/MIL-88B(Fe)/H2O2 system are proposed based on the identified intermediates and the eco-toxicity analysis was conducted by ECOSAR. Finally, experimental results using the actual surface water and groundwater revealed the excellent availability of AsA/MIL-88B(Fe)/H2O2 system in remediating SMX contaminated water. This study presents a novel, efficient Fenton-like system using AsA and iron-based metal -organic frameworks for sulfonamide removal from water.

Automated summary

The presence of ascorbic acid (AsA) in the MIL-88B(Fe)/H2O2 system significantly increases the degradation efficiency of sulfamethoxazole (SMX) and expands its pH application range. The high activity of the AsA/MIL-88B(Fe)/H2O2 system is attributed to the effective surface Fe(III)/Fe(II) cycle promoted by AsA, and a possible mechanism is proposed. Experimental results demonstrate the excellent availability of the AsA/MIL-88B(Fe)/H2O2 system in remediating SMX contaminated water.