[1] Fleischmann M, Hendra P J, McQuillan A J. Raman spectra of pyridine adsorbed at a silver electrode［J］. Chemical Physics Letters, 1974, 26(2): 163-166.

[2] Jeanmaire D L, vvan Duyne R P. Surface Raman spectroelectrochemistry: Part I. Heterocyclic, aromatic, and aliphatic amines adsorbed on the anodized silver electrode［J］. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry, 1977, 84(1): 1-20.

[3] Motz J T, Hunter M, Galindo L H, et al. Optical fiber probe for biomedical Raman spectroscopy［J］. Applied Optics, 2004, 43(3): 542-554.

[4] McDonagh C, Burke C S, MacCraith B D. Optical chemical sensors［J］. Chemical Reviews, 2008, 108(2): 400-422.

[5] Bowen J M, Sullivan P J, Blanche S M, et al. Optical-fiber Raman spectroscopy used for remote in situ environmental analysis: US4802761［P］. 1989-02-07.

[6] Smythe E J, Dickey M D, Bao J, et al. Optical antenna arrays on a fiber facet for in situ surface-enhanced Raman scattering detection［J］. Nano Letters, 2009, 9(3): 1132-1138.

[7] Mullen K I, Carron K T. Surface-enhanced Raman spectroscopy with abrasively modified fiber optic probes［J］. Analytical Chemistry, 1991, 63(19): 2196-2199.

[8] Zhang Y, Gu C, Schwartzberg A M, et al. Surface-enhanced Raman scattering sensor based on D-shaped fiber［J］. Applied Physics Letters, 2005, 87(12): 123105.

[9] Viets C, Hill W. Fibre-optic SERS sensors with angled tips［J］. Journal of Molecular Structure, 2001, 565: 515-518.

[10] Viets C, Hill W. Fibre-optic SERS sensors with conically etched tips［J］. Journal of Molecular Structure, 2001, 563: 163-166.

[11] Lucotti A, Zerbi G. Fiber-optic SERS sensor with optimized geometry［J］. Sensors and Actuators B, 2007, 121(2): 356-364.

[12] Demagh N E, Guessoum A, Aissat H. Chemical etching of concave cone fibre ends for core fibre alignment［J］. Measurement Science and Technology, 2005, 17(1): 119-122.

[13] Demagh N E, Guessoum A, Zegari R, et al. Self-centring technique for fibre optic microlens mounting using a concave cone-etched fibre［J］. Measurement Science and Technology, 2011, 22(11): 115302.

[14] Mayeh M, Farahi F. Tailoring Gaussian laser beam shape through controlled etching of single-mode and multimode fibers: simulation and experimental studies［J］. IEEE Sensors Journal, 2012, 12(1): 168-173.

[15] Zhang J, Chen S, Gong T, et al. Tapered fiber probe modified by Ag nanoparticles for SERS detection［J］. Plasmonics, 2015, 11(3): 743-751.

[16] Frens G. Controlled nucleation for the regulation of the particle size in monodisperse gold suspensions［J］. Nature Physical Science, 1973, 241(105): 20-22.

[17] Callegari A, Tonti D, Chergui M. Photochemically grown silver nanoparticles with wavelength-controlled size and shape［J］. Nano Letters, 2003, 3(11): 1565-1568.

[18] 王 兰, 黄少华, 黄祖芳, 等. 微波加热法快速制备纳米金及其 SERS 活性表征［J］. 光散射学报, 2014, 26(1): 13-18.

    Wang Lan, Huang Shaohua, Huang Zufang, et al. Rapid synthesis of gold colloids assisted by microwave irradiation and SERS activity characterized［J］. Chinese Journal of Light Scattering, 2014, 26(1): 13-18.

[19] Polwart E, Keir R L, Davidson C M, et al. Novel SERS-active optical fibers prepared by the immobilization of silver colloidal particles［J］. Applied Spectroscopy, 2000, 54(4): 522-527.

[20] Kottmann J P, Martin O J F, Smith D R, et al. Plasmon resonances of silver nanowires with a nonregular cross section［J］. Physical Review B, 2001, 64(23): 235402.

[21] 张兴坊, 张腊梅, 范群芳, 等. 金纳米球壳结构局域表面等离子体共振调谐特性［J］. 中国激光, 2011, 38(9): 0910001.

    Zhang Xingfang, Zhang Lamei, Fan Qunfang, et al. Tunable lacalied surface plasmon resonance of gold nanoshell particle［J］. Chinese J Lasers, 2011, 38(9): 0910001.

[22] Li M S, Yang C X. Optical fiber probes with laser-induced silver deposition on the core for surface-enhanced Raman scattering［C］. European Conference on Lasers and Electro-Optics and the European Quantum Electronics Conference, 2009.

[23] Li J F, Huang Y F, Ding Y, et al. Shell-isolated nanoparticle-enhanced Raman spectroscopy［J］. Nature, 2010, 464(7287): 392-395.

[24] Le Ru E C, Blackie E, Meyer M, et al. Surface enhanced Raman scattering enhancement factors: a comprehensive study［J］. Journal of Physical Chemistry C, 2007, 111(37): 13794-13803.