[1] Otto A. Excitation of nonradiative surface plasma waves in silver by the method of frustrated total reflection[J]. Zeitschrift Physik A Hadrons and Nuclei, 1968, 216(4):398-410.
[2] Wood R W. On a remarkable case of uneven distribution of light in a diffraction grating spectrum[J]. The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science, 1902, 4(21):396-402.
[3] Kretschmann, Raether H. Radiative decay of nonradiative surface plasmons excited by light (Surface plasma waves excitation by light and decay into photons applied to nonradiative modes)[J]. Zeitschrifl Fiier Naturforschung, 1968, 23(12):2135-2136.
[4] Biacore A B. Biatechnology Handbook[M]. Sweden:Version A B, 1998.
[5] Li Wenchao, He Jiahuan, Li Zhiquan, et al. Research on novel two-channel selective SPR optical fiber sensor[J]. Infrared and Laser Engineering, 2017, 46(3):0322002. (in Chinese)
[6] Liu Dachang, Fu Yuegang, Zhang Yunfang, et al. Windowed Fourier transform for surface plasmon resonance spectral interference signals[J]. Infrared and Laser Engineering, 2014, 43(8):2752-2756. (in Chinese)
[7] Priya V, Lucilla I, Giuseppe C, et al. Development and application of DNA molecular probes[J]. Aims Bioengineering, 2017, 4(1):113-132.
[8] Zeng K, Li H Y, Peng Y Y. Gold nanoparticle enhanced surface plasmon resonance imaging of microRNA-155 using a functional nucleic acid-based amplification machine[J]. Microchimica Acta, 2017, 184(8):2637-2644.
[9] Maciej Trzaskowski, Lidia Mizak, Romuald Gryko, et al. SPR system for on-site detection of biological warfare[J]. Current Analytical Chemistry, 2017, 13(2):144-149.
[10] Brule T, Granger G, Bukar N, et al. A field-deployed surface plasmon resonance (SPR) sensor for RDX quantification in environmental waters[J]. Analyst, 2017, 142(12):2161-2168.
[11] Jeong M, Jihyun B, Hongkiong K, et al. On-site detection of aflatoxin B1 in grains by a palm-sized surface plasmon resonance sensor[J]. Sensors, 2018, 18(2):598.
[12] Liu Kangwei, Yang Wenyu. The research progress of oil spill detecting technique[J]. Safety Health Environment, 2012, 12(7):1-3.
[13] Fingas M, Brown C E. A Review of oil spill remote sensing[J]. Sensors, 2017, 17(7):18010091.
[14] Hou Y C, Li Y, Liu B X, et al. Design and implementation of a coastal-mounted sensor for oil film detection on seawater[J]. Sensors, 2018, 18(1):1801007.
[15] Yu F J, Hu X L, Dong S Y, et al. Design of a low-cost oil spill tracking buoy[J]. Journal of Marine Science and Technology, 2018, 23(1):188-200.
[16] Zheng Y, Sun Y F, Xing L Y, et al. Compact real-time online oil spill detection system based on surface plasmon resonance[J]. Infrared and Laser Engineering, 2015, 44(11):3446-3453.
[17] Raether H. Surface Plasmon on Smooth and Rough Surface and on Gratings[M]. Berlin:Spring-Verlag, 1988.
[18] Wu Nianfen. Superficial modification of porous ceramics filter media and its treatment of simulating oil field produced water based on coalescence filter mechanism[D]. Changshai:University of Science and Technology of Hunan, 2013. (in Chinese)
[19] Di X, Zhang W, Jiang Z, et al. Facile and rapid separation of oil from emulsions by hydrophobic and lipophilic Fe3O4/sawdust composites[J]. Chemical Engineering Research Design, 2018, 129:102-110.
[20] Raether H. Surface plasmon oscillations and their applications[J]. Physics of Thin Films, 1977, 9(2):145-151.
[21] Zeng Jie, Liang Dakai, Du Yan, et al. Prism surface plasmon resonance sensor based on reflection light intensity interrogation[J]. Journal of OptoelectronicsLaser, 2007, 18(2):159-163.
[22] Liu Peikun, Li Yan, Wei Yong, et al. Coating optimization and SPR wedge probe with single mode fiber[J]. Optics and Precision Engineering, 2015, 23(10z):57-63.
[23] Fan Z B, Gong X Q, Lu D F, et al. Surface plasmon resonance imaging sensor based on hue algorithm[J]. Chinese Journal of Liquid Crystals and Displays, 2017, 32(5):402-409.
[24] Moriaki W, Takehisa S, Keiei K. Physical Properties and Data of Optical Materials[M]. Boca Raton:Crc Pri Llc, 2007.