Distributed Fiber-Optic Chemical Sensor with Chemically Modified Plastic Cladding

A novel method for modification of the polymer cladding of an optical fiber has been developed for use in distributed chemical sensing. The usefulness of the new technique is illustrated by means of a distributed sensor for ammonium ions based on a 9 m long plastic-clad silica fiber modified with phenol red. The stability of the immobilized indicator made it possible, for the first time, to use a chemically modified fiber for the reversible detection of ammonium ions in highly alkaline solution (pH 11–14). The new sensor offers a broader dynamic range (four orders of magnitude) and shorter response time (30 s) than point sensors for ammonium ions reported in the past.

[1]  L. Burgess,et al.  Study of Analyte Diffusion into a Silicone-Clad Fiber-Optic Chemical Sensor by Evanescent Wave Spectroscopy , 1995 .

[2]  G. Sigel,et al.  Development of a porous polymer pH optrode. , 1992, Optics letters.

[3]  R. Lieberman Recent progress in intrinsic fiber-optic chemical sensing II , 1993 .

[4]  N. B. Graham,et al.  Distributed sensor for water and pH measurements using fiber optics and swellable polymeric systems. , 1995, Optics letters.

[5]  O. Wolfbeis,et al.  Ammonia-sensitive polymer matrix employing immobilized indicator ion pairs , 1995 .

[6]  K. Matyjaszewski,et al.  Indicator characteristics of bromothymol blue derivatives. , 1991, Talanta.

[7]  John Crank,et al.  The Mathematics Of Diffusion , 1956 .

[8]  J. Reichert,et al.  Development of a fiber-optic sensor for the detection of ammonium in environmental waters , 1991 .

[9]  H. Ache,et al.  Development of an optical-chemical sensor for the detection of ammonium ions , 1992 .

[10]  H. Ache,et al.  Characterization of a Fiber-Optic Evanescent Wave Absorbance Sensor for Nonpolar Organic Compounds , 1993 .

[11]  Leonard George Cohen,et al.  Optical fiber chemical sensors utilizing dye‐doped silicone polymer claddings , 1989 .

[12]  R. A. Potyrailo,et al.  pH indicator based ammonia gas sensor: studies of spectral performance under variable conditions of temperature and humidity , 1994 .

[13]  O. Wolfbeis,et al.  Study of the performance of an optochemical sensor for ammonia , 1996 .

[14]  H. Kawakami,et al.  Humidity-sensing effects of optical fibres with microporous SiO2 cladding , 1988 .