Development of intrinsic optical fiber pH sensors for industrial applications

Proceedings of IEEE Sensors

Volumn , Issue , 2009, Pages 89-94

  Nguyen, T Hien ^a   Venugopalan, Thillainathan ^a   Sun, Tong ^a   Grattan, Kenneth T V ^a  

^a CITY UNIVERSITY   (United Kingdom)

Author keywords

[No Author keywords available]

Indexed keywords

COUMARIN DYES; GOOD STABILITY; PH RANGE; PHOTO-STABILITY; RESPONSE TIME;

INDUSTRIAL APPLICATIONS; IONIC STRENGTH; OPTICAL FIBERS; OPTICAL MATERIALS; PH EFFECTS; SENSORS;

PH SENSORS;

EID: 77951095395     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1109/ICSENS.2009.5398229     Document Type: Conference Paper

References (33)

1. K. T. V. Grattan and B.T.Meggitt, "Chemical and environmental sensing," in Optical Fiber Sensor Technology, vol. 4: Kluwer Academic Publishers, 1999.
2. S. T. Lee, J. Gin, V. P. N. Nampoori, C. P. G. Vallabhan, N. V. Unnikrishnan, and P. Radhakrishnan, "A sensitive fibre optic pH sensor using multiple sol-gel coatings," J. Opt. A: Pure Appl. Opt., vol. 3, pp. 355-359, 2001. (Pubitemid 32950833)
3. S. A. Grant, K. Bettencourt, P. Krulevitch, J. Hamilton, and R. Glass, "In vitro and in vivo measurements of fiber optic and electrochemical sensors to monitor brain tissue pH," Sens. Actuators, B, vol. 72, pp. 174-179, 2001.
4. J. I. Peterson, S. R. Goldstein, R. V. Fitzgerald, and D. K. Buckhold, "Fiber optic pH probe for physiological use," Anal. Chem., vol. 52, pp. 864-869, 1980. (Pubitemid 10481344)
5. A. S. Vasylevska, A. A. Karasyov, S. M. Borisov, and C. Krause, "Novel coumarin-based fluorescent pH indicators, probes and membranes covering a broad pH range," Anal. Bioanal. Chem., vol. 387, pp. 2131-2141, 2007.
6. O. S. Wolfbeis, "Fiber-optic chemical sensors and biosensors," Anal. Chem., vol. 74, pp. 2663-2677, 2002.
7. Z. H. Liu, J. F. Liu, and T. L. Chen, "Phenol red immobilized PVA membrane for an optical pH sensor with two determination ranges and long-term stability," Sens. Actuators, B, vol. 107, pp. 311-316, 2005. (Pubitemid 40655086)
8. M. Uttamlal, W. D. Sloan, and D. Millar, "Covalent immobilization of fluorescent indicators in photo- and electropolymers for the preparation of fibreoptic chemical sensors," Polym. Int., vol. 51, pp. 1198-1206, 2002.
9. T. Fujii, A. Ishii, Y. Kurihara, and M. Anpo, "Multiple fluorescence-spectra of fluorescein molecules encapsulated in the silica xerogel prepared by the sol-gel reaction," Res. Chem. Intermediat., vol. 19, pp. 333-342, 1993.
10. F. J. Arregui, M. Otano, C. Fernandez-Valdivielso, and I. R. Matias, "An experimental study about the utilization of Liquicoat solutions for the fabrication of pH optical fiber sensors," Sens. Actuators, B, vol. 87, pp. 289-295, 2002.
11. G. J. Mohr and O. S. Wolfbeis, "Optical sensors for a wide pH range based on azo dyes immobilized on a novel support," Anal. Chim. Acta, vol. 292, pp. 41-48, 1994.
12. P. A. Wallace, N. Elliott, M. Uttamlal, A. S. Holmes-Smith, and M. Campbell, "Development of a quasi-distributed optical fibre pH sensor using a covalently bound indicator," Meas. Sci. Technol., vol. 12, pp. 882-886, 2001.
13. J. Goicoechea, C. R. Zamarreno, I. R. Matias, and F. J. Arregui, "Optical fiber pH sensors based on layer-by-layer electrostatic self-assembled Neutral Red," Sens. Actuators, B, vol. 132, pp. 305-311, 2008.
14. Y. Egawa, R. Hayashida, and J. I. Anzai, "Multilayered assemblies composed of brilliant yellow and poly(allylamine) for an optical pH sensor," Anal. Sci., vol. 22, pp. 1117-1119, 2006.
15. J. Lin, "Recent development and applications of optical and fiber-optic pH sensors," Trac-Trend. Anal. Chem., vol. 19, pp. 541-552, 2000.
16. A. A. Ensafi and A. Kazemzadeh, "Optical pH sensor based on chemical modification of polymer film," Microchem. J., vol. 63, pp. 381-388, 1999.
17. Y. Kostov, S. Tzonkov, L. Yotova, and M. Krysteva, "Membranes for optical pH sensors," Anal. Chim. Acta, vol. 280, pp. 15-19, 1993.
18. L. A. Saari and W. R. Seitz, "pH sensor based on immobilized fluoresceinamine," Anal. Chem., vol. 54, pp. 821-823, 1982.
19. H. D. Duong, O. J. Sohn, H. T. Lam, and J. I. Rhee, "An optical pH sensor with extended detection range based on fluoresceinamine covalently bound to sol-gel support," Microchem. J., vol. 84, pp. 50-55, 2006.
20. F. Baldini, A. Giannetti, and A. A. Mencaglia, "Optical sensor for interstitial pH measurements," J. Biomed. Opt, vol. 12, 2007.
21. C. Eggeling, J. Widengren, R. Rigler, and C. A. M. Seidel, "Photobleaching of fluorescent dyes under conditions used for single-molecule detection: Evidence of two-step photolysis," Anal. Chem., vol. 70, pp. 2651-2659, 1998. (Pubitemid 28353991)
22. K. H. Drexhage, "Fluorescence efficiency of laser-dyes," J. Res. Nat. Bur. Stand., Sect. A, vol. 80, pp. 421-428, 1976.
23. E. J. Netto, J. I. Peterson, M. McShane, and V. Hampshire, "A fiberoptic broad-range pH sensor system for gastric measurements," Sens. Actuators, B, vol. 29, pp. 157-163, 1995.
24. P. Wiczling, M. J. Markuszewski, M. Kaliszan, K. Galer, and R. Kaliszan, "Combined pH/organic solvent gradient HPLC in analysis of forensic material," J. Pharm. Biomed. Anal., vol. 37, pp. 871-875, 2005.
25. M. Simek, L. Jisova, and D. W. Hopkins, "What is the so-called optimum pH for denitrification in soil?," Soil Biol. Biochem., vol. 34, pp. 1227-1234, 2002.
26. W. D. Sloan and M. Uttamlal, "A fibre-optic calcium ion sensor using a calcein derivative," Luminescence, vol. 16, pp. 179-186, 2001.
27. D. Staneva and R. Betcheva, "Synthesis and functional properties of new optical pH sensor based on benzo[de]anthracen-7-one immobilized on the viscose," Dyes Pigments, vol. 74, pp. 148-153, 2007.
28. D. F. Eaton, "Reference materials for fluorescence measurement," Pure Appl. Chem., vol. 60, pp. 1107-1114, 1988.
29. J. B. Birks, "Fluorescence quantum yield measurements," J. Res. Nat. Bur. Stand., Sect. A, vol. 80, pp. 389-399, 1976.
30. T. H. Nguyen, T. Venugopalan, T. Sun, and K. T. V. Grattan, "Coumarin-based optical fiber pH sensors for in situ monitoring," Sens. Actuators, B, vol. unpublished, 2009.
31. M. Szabelski, K. Guzow, A. Rzeska, J. Malicka, M. Przyborowska, and W. Wiczk, "Acidity of carboxyl group of tyrosine and its analogues and derivatives studied by steady-state fluorescence spectroscopy," J. Photochem. Photobiol., A, vol. 152, pp. 73-78, 2002.
32. T. H. Nguyen and R. J. Ansell, "Fluorescent imprinted polymer sensors for chiral amines," Org. Biomol. Chem., vol. 7, pp. 1211-1220, 2009.
33. T. L. Yeo, T. Sun, and K. T. V. Grattan, "Fibre-optic sensor technologies for humidity and moisture measurement," Sens. Actuators, A, vol. 144, pp. 280-295, 2008.