A spiral shape microfluidic photoreactor with MOF(NiFe)-derived NiSe-Fe₃O₄/C heterostructure for photodegradation of tetracycline: Mechanism conception and DFT calculation

Tetracycline (TC), as a high-world consumption antibiotic, has a stable molecular structure and low biodegradability, which makes it highly demanding to be removed. Herein, we propose a viable solvothermal strategy for the synthesis of flower-like NiSe-Fe3O4/C S-scheme heterostructure from the hierarchical Ni/Fe-MOF sacrificial template and its application to the photocatalytic degradation of TC in a designed spiral shape microfluidic photoreactor. The electrochemical, optical, microscopic, density functional theory (DFT) calculations, and experimental results, have thoroughly confirmed that coupling of the NiSe-Fe3O4 heterostructure and carbon sheath can promote superior light-harvesting ability and photoexcited charge separation and transfer efficiency, resulting in robust photocatalytic performance. The photocatalytic degradation efficiency of TC was reached more than 85% in 15 min by NiSe-Fe3O4/ C. Moreover, detailed mechanism evaluation admits the crucial effect of the produced reactive oxygen species ((OH)-O-center dot and O-center dot(2)) leads to significant performance. This work provides new insight into the rational design of bi-MOF-derived S-scheme heterostructure with an internal electric field that derives charge separation and transfer. In addition, the rate of mass transfer in photocatalytic reaction is facilitated by proposing microfluidic systems as a capable process and intensification strategy toward environmental remediation applications. (c) 2023 The Korean Society of Industrial and Engineering Chemistry. Published by Elsevier B.V. All rights reserved.