Abstract
A novel bimetallic MOF (i.e., FexAl1-x-MIL) with fluorescence quenching in the probe, was constructed to detect H2S based on a “turn-on” effect in an aqueous system. Interestingly, a trace amount of Al3+ replaced by Fe3+ in the parent MOF Al-MIL-53-NH2 causes significant fluorescence quenching in the bimetallic MOF, which is attributed to the strong ligand to metal charge transfer between unpaired electrons in Fe3+ and π-conjugated BDC-NH2 ligands. After H2S treatment, a fluorescence augmentation was observed, with a good linear relationship between H2S concentration (0–38.46 μM) and fluorescence intensity, indicating that Fe0.05Al0.95-MIL could be used for quantitative H2S detection. Particularly, Fe3+ in the bimetallic MOF seized by S2− facilitated the partial degradation and subsequent release of BDC-NH2 ligands, which were determined to be real fluorophores that contributed to the fluorescence enhancement. This study offers new insights into the luminescent bimetallic MOF design and would expand its application in chemical sensing.
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