Abstract
Using chitosan as a raw material, 1,8-naphthimide as the fluorescent chromophore, and sulfur-containing compounds as the recognition groups, a novel naphthimide-functionalized chitosan probe, CS-BNS, for the detection of ClO(-) was successfully synthesized. The modification of chitosan was verified by SEM, XRD, FTIR, mapping, (13)C-NMR, TG and the structure of the probe molecule was characterized. The identification performance of the probes was studied using UV and fluorescence spectrophotometers. The results show that CS-BNS exhibits a specific response to ClO(-) based on the oxidative reaction of ClO(-) to the recognition motifs, as well as a good resistance to interference. And the probe has high sensitivity and fast response time, and can complete the detection of ClO(-) in a pure water system within 60 s. The probe can also quantify ClO(-) (y = 30.698x + 532.37, R(2) = 0.9833) with a detection limit as low as 0.27 μM. In addition, the combination of the probe with smartphone technology enables the visualization and real-time monitoring of ClO(-). Moreover, an identification system for ClO(-) was established by combining the probe with smartphone technology, which realized the visualization and real-time monitoring of ClO(-).