Abstract
The investigation on anion sensing properties for a series of macrocyclic bis(amidonaphthol)s 3a– 3c reveals the significant effects of macrocyclic ring size. Among them, macrocycle 3c with the largest ring size shows F − ion selectivity by causing clear red shift (24 nm) in fluorescence emission after complexation with F −, which results in significant color change of fluorescence from blue to green. This excellent selectivity toward F − ion might be attributed to the fitness between the acidity of –OH group and the basicity of F − ion. Further exploration indicates that the acidity of –OH group can be tuned by ring size to give it the capability to discriminate the subtle difference in the affinity of F −, CH 3COO −, and H 2PO 4 − to –OH proton.
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