Abstract

Antibiotics in wastewater are very harmful to the environment and human health; their effective detection is important but still challenging. Herein, the first copper(I) iodine-based antibiotic sensor [Cu4I4(EBT)5] (denoted as UJN-Cu, EBT = 3-ethyl-1,3-benzothiazole-2-thione) was prepared through a facile solvothermal synthesis method and structurally determined by single crystal X-ray diffraction. The molecular structure of UJN-Cu adopts a chair-like structure of [Cu4I4(Ligand)5], which is distinctly different from the reported cubane- or chair-like [Cu4I4(Ligand)4] tetranuclear configurations. Theoretical calculations indicate that the greenish yellow fluorescent emission of UJN-Cu arises from the charge transition between the [Cu4I4] core and EBT ligand. The hydrophobic EBT as a shell of the [Cu4I4] core and the formation of three-dimensional supramolecular structure are responsible for the excellent stability of UJN-Cu in various antibiotic aqueous solutions. UJN-Cu behaves as a sensitive luminescence...

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