The Establishment of the Method of the Fiber Optic Chemical Sensor Synchronous Absorption-Fluorescence
ZHANG Li-hua1, Arkin IBURAIM2*
1. Department of Pharmacy of Maternal and Child Health Care of Zaozhuang, Zaozhuang 277100, China 2. Central Laboratory of Xinjiang Medical University, Urumqi 830011, China
Abstract:A new method of simultaneously measuring fiber-optic chemical sensor absorption spectrum and fluorescence spectrum is established. Make synchronous absorption-fluorescence cuvette, establish synchronous absorption-fluorescence spectrometry instrumentation combined by fiber optic chemical sensor technology, measure the synchronous absorption-fluorescence spectrums of solutions of rhodamine B, vitamin B2 and vitamin B6, compared by absorption spectroscopy measured by traditional UV-Visible photometric method and fluorescence spectroscopy measured by traditional fluorescence method. Synchronous absorption-fluorescence method measure absorption spectrums and fluorescence spectrums the same to traditional photometric and fluorescence spectroscopy of rhodamine B, vitamin B2 and vitamin B6. The maximum wavelength of fluorescence intensity method has high accuracy relatively compared with fluorescence, but the maximum wavelength of absorption has a slight deviation. Synchronous absorption-fluorescence method means simultaneously measure the absorption spectrums and fluorescence spectrums of the fluorescent substance, making two spectrums to one. The method measured the maximum emission wavelength with high accuracy, though in measuring maximum absorption wavelength there is a slight deviation, but it is worth further studying.
Key words:Fiber-optic chemical sensor;Synchronous absorption-fluorescence method;Absorption method;Fluorescent method
章立华1,艾尔肯·依不拉音2* . 光纤化学传感同步吸收-荧光法的建立 [J]. 光谱学与光谱分析, 2016, 36(03): 755-758.
ZHANG Li-hua1, Arkin IBURAIM2* . The Establishment of the Method of the Fiber Optic Chemical Sensor Synchronous Absorption-Fluorescence. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2016, 36(03): 755-758.
[1] Gerd Keiser, Fei Xiong, Ying Cui. Journal of Biomedical Optics, 2014, 19(8):080902-29. [2] LI Jian-guang, ZHANG Lu, LI Xin-xia(李建光, 张 露, 李新霞). Journal of Xinjiang Medical University(新疆医科大学学报), 2014, 37(10): 1296. [3] YAO Jun, SHEN Jing, LI Li, et al(姚 军, 沈 静, 李 莉, 等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2014, 34(9): 2587. [4] Stanislav A Kolpakov, Neil T Gordon, Chengbo Mou. Sensors, 2014, 14: 3986. [5] Frosch Torsten, Yan Di, Popp Jürgen. Analytical Chemistry, 2013, 85: 6264. [6] Yari A,Papi F. Sens. Actuators B Chem. 2011, 16: 698. [7] Alizadeh K,Parooi R,Hashemi P. J. Hazard Mater.,2011, 186: 1794. [8] Hummad Habib Qazi, Abu Bakar bin Mohammad, Muhammad Akram. Sensors,2012, 12; 16522. [9] Liu Q, Grant G, Li J. Biomed. Opt.,2011, 16: 37004. [10] LI Xin, ZHU Jin, GENG Jing, et al(李 欣, 朱 瑾, 耿 晶, 等). Journal of Xinjiang Medical University(新疆医科大学学报), 2014, 37(8): 995. [11] Stedmon C A, Sobecka B S, Hansen R B, et al. Water Res.,2011, 45:6030. [12] Chu Chengahane, Lo Yulung, Sung Tiwen. Photonic Sensors, 2011, 1(3): 234.