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    Journals >Photonic Sensors >Volume 5 >Issue 1 >Page 60 > Article
    • Photonic Sensors
    • Vol. 5, Issue 1, 60 (2015)
    Polyimide-Coated Fiber Bragg Grating for Relative Humidity Sensing
    Yao LIN, Yuan GONG*, Yu WU, and and Huijuan WU
    Author Affiliations
  • Key Laboratory of Optical Fiber Sensing and Communications (Ministry of Education of China), University of Electronic Science and Technology of China, Chengdu, 611731, China
    • show less
    DOI: 10.1007/s13320-014-0218-8 Cite this Article
    Yao LIN, Yuan GONG, Yu WU, and Huijuan WU. Polyimide-Coated Fiber Bragg Grating for Relative Humidity Sensing[J]. Photonic Sensors, 2015, 5(1): 60 Copy Citation Text show less
    References

    [1] Y. J. Rao, “Recent progress in applications of in-fibre Bragg grating sensors,” Optics and Lasers in Engineering, 1999, 31(4): 297–324.

    [2] Y. J. Rao, “In-fiber Bragg grating sensors,” Measurement Science and Technology, 1997, 8(4): 355–375.

    [3] B. Sutapun, M. Tabibazar, and A. Kazemi, “Pd-coated elastooptic fiber optic Bragg grating sensors for multiplexed hydrogen sensing,” Sensors and Actuators B: Chemical, 1999, 60(1): 27–34.

    [4] W. Li, J Pang, X. Lu, and J. Liu, “Rail expansion devices monitored by FBG sensors on an urban railway viaduct,” Photonic Sensors, 2014, 4(2): 173–179.

    [5] D. Pang and Q. Sui, “Response analysis of ultrasonic sensing system based on fiber Bragg gratings of different lengths,” Photonic Sensors, 2014, 4(3): 281–288.

    [6] S. Saad, L. Hassine, and W. Elfahem, “Hydrogen FBG sensor using Pd/Ag film with application in propulsion system fuel tank model of aerospacevehicle,” Photonic Sensors, 2014, 4(3): 254–264.

    [7] J. G. V. Teixeira, I. T. Leite, S. Silva, and O. Frazao, “Advanced fiber-optic acoustic sensors,” Photonic Sensors, 2014, 4(3): 198–208.

    [8] K. M. Tan, C. M. Tay, S. C. Tjin, C. C. Chan, and H. Rahardjo, “High relative humidity measurements using gelatin coated long-period grating sensors,” Sensors and Actuators B: Chemical, 2005, 110(2): 335–341.

    [9] X. F. Huang, D. R. Sheng, K. F. Cen, and H. Zhou, “Low-cost relative humidity sensor based on thermoplastic polyimide-coated fiber Bragg grating,” Sensors and Actuators B: Chemical, 2008, 127(2): 518–524.

    [10] J. Y. Jun, L. H. Bao, and H. Liu, “Sketch of moisture sensitive polymer use with fiber Bragg grating based humidity sensor,” College Physics, 2009, 28(7): 39–42.

    [11] T. L. Yeo, T. Sun, K. T. V. Grattan, D. Parry, R. Lade, and B. D. Powell, “Polymer coated fiber Bragg grating for relative humidity sensing,” IEEE Sensors Journal, 2005, 5(5): 1082–1089.

    [12] B. Adhikari and S. Majumdar, “Polymers in sensor applications,” Progress in Polymer Science, 2004, 29(7): 699–766.

    [13] A. P. Russell and K. S. Fletcher, “Optical sensor for the determination of moisture,” Analytica Chimica Acta, 1985, 170: 209–216.

    [14] K. O. Hill and G. Meltz, “Fiber Bragg grating technology fundamentals and overview,” Journal of Lightwave Technology, 1997, 15(8): 1263–1276.

    [15] US Standard, ASTME104-02, Standard Practice for Maintaining Constant Relative Humidity by Means of Aqueous Solutions.

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    Yao LIN, Yuan GONG, Yu WU, and Huijuan WU. Polyimide-Coated Fiber Bragg Grating for Relative Humidity Sensing[J]. Photonic Sensors, 2015, 5(1): 60
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