Scientific Reports (Aug 2024)

Synthesis of superparamagnetic Fe3O4–graphene oxide-based material for the photodegradation of clonazepam

  • Maryne Patrícia da Silva,
  • Ana Caroline Alves de Souza,
  • Ágata Rodrigues Deodato Ferreira,
  • Pedro Lucas Araújo do Nascimento,
  • Tiago José Marques Fraga,
  • Jorge Vinícius Fernandes Lima Cavalcanti,
  • Marcos Gomes Ghislandi,
  • Maurício Alves da Motta Sobrinho

DOI
https://doi.org/10.1038/s41598-024-67352-8
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 14

Abstract

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Abstract The global concern over water pollution caused by contaminants of emerging concern has been the subject of several studies due to the complexity of treatment. Here, the synthesis of a graphene oxide-based magnetic material (GO@Fe3O4) produced according to a modified Hummers’ method followed by a hydrothermal reaction was proposed; then, its application as a photocatalyst in clonazepam photo-Fenton degradation was investigated. Several characterization analyses were performed to analyze the structure, functionalization and magnetic properties of the composite. A 23 factorial design was used for the optimization procedure to investigate the effect of [H2O2], GO@Fe3O4 dose and pH on clonazepam degradation. Adsorption experiments demonstrated that GO@Fe3O4 could not adsorb clonazepam. Photo-Fenton kinetics showed that total degradation of clonazepam was achieved within 5 min, and the experimental data were better fitted to the PFO model. A comparative study of clonazepam degradation by different processes highlighted that the heterogeneous photo-Fenton process was more efficient than homogeneous processes. The radical scavenging test showed that $${O}_{2}^{\cdot -}$$ O 2 · - was the main active free radical in the degradation reaction, followed by hydroxyl radicals (•OH) and holes (h+) in the valence layer; accordingly, a mechanism of degradation was proposed to describe the process.