SINGLE FIBEROPTIC PH SENSOR-BASED ON CHANGES IN REFLECTION ACCOMPANYING POLYMER SWELLING

We have prepared fiber-optic pH sensors consisting of a small drop of aminated polystyrene on the tip of a single optical fiber with a core diameter of 100 mu m. The sensor is prepared by dipcoating a partially polymerized solution and then completing the polymerization on the fi ber. This is followed by amination with diethanolamine. The polymer fo rmulation includes xylene/dodecane to introduce porosity and Kraton G1 652, a styreneethylene, butylene-styrene, triblock copolymer as a toug hening agent. The polymer swells as the amine groups are protonated. T his is accompanied by an increase in clarity of the polymer and a decr ease in the intensity of light reflected back into the optical fiber. Intensity decreases by over a factor of 2 as tbe pH is decreased from 8.0 to 6.5. The resulting sensor is small and mechanically stable with a response time of several minutes.