Litcius/Paper detail

Revealing the Role of Defect in <scp>3D</scp> Graphene‐Based Photocatalytic Composite for Efficient Elimination of Antibiotic and Heavy Metal Combined Pollution

Xin Wang, Jingzhe Zhang, Hui Wang, Mengjun Liang, Qiang Wang, Fuming Chen

2023Energy & environment materials30 citationsDOIOpen Access PDF

Abstract

Defect engineering can give birth to novel properties for adsorption and photocatalysis in the control of antibiotics and heavy metal combined pollution with photocatalytic composites. However, the role of defects and the process mechanism are complicated and indefinable. Herein, TiO 2 /CN/3DG was fabricated and defects were introduced into the tripartite structure with separate O 2 plasma treatment for the single component. We find that defect engineering can improve the photocatalytic activity, attributing to the increase of the contribution from h + and OH. In contrast to TiO 2 /CN/3DG with a photocatalytic tetracycline removal rate of 75.2%, the removal rate of TC with D‐TiO 2 /CN/3DG has increased to 88.5%. Moreover, the reactive sites of tetracycline can be increased by adsorbing on the defective composites. The defect construction on TiO 2 shows the advantages in tetracycline degradation and Cu 2+ adsorption, but also suffers significant inhibition for the tetracycline degradation in a tetracycline/Cu 2+ combined system. In contrast, the defect construction on graphene can achieve the cooperative removal of tetracycline and Cu 2+ . These findings can provide new insights into water treatment strategies with defect engineering.

Topics & Concepts

TetracyclinePhotocatalysisAdsorptionDegradation (telecommunications)Composite numberGrapheneMaterials scienceMetalTetracycline antibioticsChemical engineeringAntibioticsChemistryNanotechnologyComposite materialMetallurgyOrganic chemistryCatalysisComputer scienceBiochemistryEngineeringTelecommunicationsGraphene and Nanomaterials ApplicationsAdvanced Photocatalysis TechniquesCarbon and Quantum Dots Applications