Journal
DYES AND PIGMENTS
Volume 174, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.dyepig.2019.108035
Keywords
Functional; Ln-MOFs; Different coordination; Ion recognition; High detection of Fe3+ ions
Funding
- National Natural Science Foundation of China [51878290]
- Guangxi Natural Science Foundation of China [2015GXNSFBA139242]
- key research project of Hechi University [2019GCC008]
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The design and synthesis of high stability lanthanide complexes with ion detection has been widely attentions and certain challenges. In this work, we successfully synthesized and designed a series of 2D Ln-MOFs ([Ln(2)(L-1)(2)(H2O)(4)]center dot 2H(2)O, Ln = Tb (MOF-1), Eu (MOF-3); [Tb-2(L-1)(2)(DMF)(H2O)] (MOF-2)). Structural analysis suggests that every Ln(III) ion is surrounded by six O ions from four L-1 ligands, and two oxygen atoms from water molecules of MOF-1 and MOF-3. For MOF-2, the asymmetric unit consists of two different coordination of Tb(III) ions, two L-1 ligands, one coordinated dimethylformamide (DMF) and one coordinated H2O molecule. The eight-coordinated Tb-1 is surrounded by five O ions/atoms and two mu(2)-O-center dot ions from four L-1 ligands; and one O atom from one coordinated H2O molecule, The seven-coordinated Tb-2 is surrounded by four O ions/atoms and two mu(2)-O-center dot ions from four L1 ligands and one O atom from one coordinated DMF molecule. The results of various metal ions sensing show that those three Ln-MOFs have high efficiency, sensitivity and specificity in the recognition of Fe3+ ions in aqueous solution. Further tests show that the minimum detection concentration of Fe3+ ions in an aqueous solution of the above three cases of Ln-MOFs is 10(-6) M, and the interference of other ions in the solution can be effectively avoided.
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