Issue 35, 2023

Fluorescent cadmium(ii) metal–organic frameworks exhibit excellent stability and detection ability to Fe3+ and MnO4 ions

Abstract

Two new 3D Cd(II)-MOFs have been constructed from a tetrakis(4-carboxybiphenyl)ethylene ligand, namely [Cd4.25(tcbpe)3]·0.25(C4H11N)·7.5DEF (NLMOF-1) and [Cd2K(H2tcbpe)(Htcbpe)]n·4DEF (NLMOF-2). Single-crystal X-ray analysis revealed that NLMOF-1 is of 3D framework constituted by 1D metal chains containing six-nuclear secondary building units (SBUs) and one-dimensional channel, while NLMOF-2 also exhibits a 3D structure in which the 1D channel is blocked by coordinated K ions, resulting in poor chemical stability. NLMOF-1 possesses excellent stability in both water and common organic solvents, conducive to investigating its utility as a chemical sensor. Fluorescence sensing studies show that NLMOF-1 is characteristic of highly sensitive and selective quenching effects toward Fe3+ ions in DMF, DMA, and acetonitrile, as well as MnO4 ions in H2O, DMA, and acetonitrile. The above results suggest that NLMOF-1 can be considered a potential fluorescent sensor for detecting Fe3+ and MnO4 ions.

Graphical abstract: Fluorescent cadmium(ii) metal–organic frameworks exhibit excellent stability and detection ability to Fe3+ and MnO4− ions

Supplementary files

Article information

Article type
Paper
Submitted
07 Jun 2023
Accepted
08 Aug 2023
First published
09 Aug 2023

New J. Chem., 2023,47, 16741-16747

Fluorescent cadmium(II) metal–organic frameworks exhibit excellent stability and detection ability to Fe3+ and MnO4 ions

P. Cen, T. Ma, F. Jiang, F. Zhang, Y. He, R. Ding and D. Tian, New J. Chem., 2023, 47, 16741 DOI: 10.1039/D3NJ02631K

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