A novel three-dimensional metal organic framework, PbOL (1) (HL = 4-(1H-tetrazol-5-yl)phenol), with a unique 3D network structure exhibits excellent luminescence and good stability in water and other organic solvents. 1 can act as a promising dual functional sensor for the detection and recognition of nitroaromatic explosives (NACs) and Fe ions via fluorescence quenching with high selectivity and sensitivity in an aqueous phase. Importantly, 1 as a fluorescent sensor of Fe can be simply and quickly regenerated, which represents a rare example of a reported luminescent sensor of Fe ions. Furthermore, the visible colour changes in the detection process make them easy to distinguish by the naked eyes, and luminescent test plates broaden its potential application in detection of Fe ions. Experimental and theoretical calculations indicate that the luminescence quenching can be attributed to an electron and resonance energy transfer between the MOF and analytes. The present study contributes to the development of MOF materials research, specifically in their application as biological and environmental fluorescent sensors.
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