Fluorescence sensitively sensing on antibiotic and nitrobenzene of two diverse 2D Zn-organic networks

•Two 2D luminous zinc(II) coordination polymers based on 4-H3DBB and two N-containing ligands.•1 possesses the interpenetration of 2D (4,4) networks based on the cross of two kinds of 1D chains.•2D networks of 2 featuring 1D tube-like structure linked by the six-number-ring H-bonds clusters.•Fluores...

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Published in:Journal of molecular structure 2023-09, Vol.1287, p.135745, Article 135745
Main Authors: Liu, Wanting, Yang, Xue, Ren, Yixia, Zhang, Meili, Wang, Zhixiang, Wang, Jijiang
Format: Article
Language:English
Subjects:
Antibiotic
Density functional theory
Fluorescence sensing property
Nitrobenzene
Zinc coordination polymer
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Summary:•Two 2D luminous zinc(II) coordination polymers based on 4-H3DBB and two N-containing ligands.•1 possesses the interpenetration of 2D (4,4) networks based on the cross of two kinds of 1D chains.•2D networks of 2 featuring 1D tube-like structure linked by the six-number-ring H-bonds clusters.•Fluorescence sensing chloramphenicol (1) and tetracycline (2).•The detection of nitrobenzene with the low limit of detection attributed to the photo-induced electron transfer effect (PET). Two 2D luminous zinc(II) coordination polymers have been synthesized hydrothermally with the formulas of [Zn(4-HDBB)(3-bibz)](1) and [Zn2(4-DBB) (OH)(4,4′-bbpy)1.5]·2H2O(2) (4-H3DBB = 4-(3,5-dicarboxylatobenloxy) benzoic acid, 3-bibz = 3-bis(imidazole-l-ylmethyl) benzene and 4,4′-bbpy = 4,4′-bis (imidazolyl) biphenyl), and characterized by single crystal X-ray diffraction, IR, TG and PXRD technologies. Structural analyses exhibit both of them crystallize in P-1 space group of triclinic crystal system with 2D network structures. 1 possesses the interpenetration of 2D (4,4) networks based on the cross of two kinds of 1D chains. The 2D networks of 2 featuring 1D tube-like structure are linked by the six-number-ring H-bonds clusters. Fluorescence sensing properties on antibiotic of two complexes display 1 could detect of chloramphenicol (LOD = 6.64 × 10−7 mol⋅ L-1) and the detection limit of polymer 2 for tetracycline is 1.22 × 10−7 mol⋅ L-1. Solvents detection show that nitrobenzene in water was completely quenched by all of them, and display the highly sensitive sensing for nitrobenzene with the limit of detection of 5.0 × 10−8 mol L-1(1) and 2.14 × 10−7mol·L-1(2), respectively. Through theoretical calculation, it is found that the sensing mechanism of two complexes on nitrobenzene could be mainly attributed to the photo-induced electron transfer effect (PET). The fact shows that the two complexes can be used multi-functional sensors in the future. Two 2D luminous zinc-organic networks have been synthesized hydrothermally based on a tricarboxylate ligand and two linear N-containing ligands. Structural analyses exhibit 1 possesses the interpenetration of 2D (4,4) networks based on the cross of two kinds of 1D chains, while the 2D networks of 2 featuring 1D tube-like structure are linked by the six-number-ring H-bonds clusters. Fluorescence sensing properties on antibiotic of two complexes display 1 could detect of chloramphenicol, but 2 for tetracycline. Solvents detection shows that th
ISSN:0022-2860
1872-8014
DOI:10.1016/j.molstruc.2023.135745