Characterization and application of PBA fiber optic chemical film sensor based on fluorescence multiple quenching

Abstract

The three types of structure of the pyrenebutyric acid of fiber optic chemical film sensor were studied by fluorescence multiple quenching. They are, for different test samples and purposes, respectively general, three-way and combined. A tri-cup method was designed to demonstrate the multiple quenching of response mechanism, and a relationship formula of mathematical approach was established. The response mechanism was shown to include the dynamic quenching, inner-filter effects and/or resonance energy transfer. To show the response characterization in a series of organic and inorganic quenchers, a new concept of apparent quenching coefficient K_q was advanced. This kind of sensor has been used in continuous andin situ monitoring of the dissolution rate of drug tablets, on line andin situ monitoring of some organic therapeutic drugs in biological fluid and Cr(VI) in industrial waste water. The measured data were examined and compared with HPLC or HPTLCS. Test results show that the sensors and apparatus are stable and reliable, and their responses to analyte are reversible and rapid, reaching the practical application level.