Home > Archive>Volume 15, Issue 5, 2019 >339-342. DOI:https://doi.org/10.1007/s11801-019-9007-3
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An automated flow-batch analyzer based on spectro- photometry for the determination of nitrite
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School of Life and Environmental Sciences, Guilin University of Electronic Technology, Guilin 541004, China

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    Abstract:

    An automated flow-batch analyzer (FBA) based on spectrophotometry was developed for the determination of nitrite (NO2−) in environmental waters. The FBA consists of a homemade flow cell, light source, detector and a mini-syringe pump, which was controlled by self-designed software written in LabVIEW. Two LEDs and a light-to-voltage converter were used as the light source and detector respectively. The chemical detection method was based on spectrophotometry and modified Griess reaction. With the optimized conditions, the limit of detection (LOD) was 0.018 µmol∙L-1 and the relative standard deviations (RSDs) at different concentrations (0—12 µmol∙L-1) were 0.54%—3.63% (n=3). Measurements of different aqueous samples (n=21) showed no significant difference between results obtained by developed FBA and a commercial spectrophotometer.

    Reference
    [1]White S A, Santos I R and Hessey S, Environmental Pollution 243, 1036 (2018).
    [2]Yin Guo-yu, Hou Li-jun, Liu Min, Zheng Yan-ling, Li Xiao-fei, Lin Xian-biao, Gao Juan and Jiang Xiao-fen, Environmental Pollution 214, 265 (2016).
    [3]Poulsen R, Cedergreen N, Hayes T and Hansen M, En-vironmental Science & Technology 52, 3869 (2018).
    [4]Wang Qiu-hua, Yu Li-ju, Liu Yang, Lin Lan, Lu Ri-gang, Zhu Jian-ping, He Lan and Lu Zhong-lin, Talanta 165, 709 (2017).
    [5]Sreekumar N V, Narayana B, Hegde P, Manjunatha B R and Sarojini B K, Microchemical Journal 74, 27 (2003).
    [6]Al-Okab R A and Syed A A, Talanta 72, 1239 (2007).
    [7]Monte-Filho S S, Lima M B, Andrade S I, Harding D P, Fagundes Y N, Santos S R, Lemos S G and Araujo M C, Talanta 86, 208 (2011).
    [8]Nascimento E C L, Araujo M C U and Galvao R K H, Journal of the Brazilian Chemical Society 22, 1061 (2011).
    [9]Ma Jian, Li Pei-cong, Chen Zhao-ying, Lin Kun-ning, Chen Neng-wang, Jiang Yi-yong, Chen Ji-xin, Huang Bang-qin and Yuan Dong-xing, Analytical Chemistry 90, 6431 (2018).
    [10]Lin Kun-ning, Ma Jian, Yuan Dong-xing, Feng Si-chao, Su Hai-tao, Huang Yong-ming and Shangguan Qi-pei, Talanta 167, 166 (2017).
    [11]Zhu Yong, Yuan Dong-xing, Huang Yong-ming, Ma Jian, Feng Si-chao and Lin Kun-ning, Marine Chemistry 162, 114 (2014).
    [12]Li Jin-ge, Li Qian-qian, Lu Chao and Zhao Li-xia, Ana-lyst 136, 2379 (2011).
    [13]Fernández M A T, Ca?abate B, Costa-Fernández J M, Pereiro R and Sanz A, Talanta 62, 991 (2004).
    [14]Cui Yan-ping, Yang Chang-zhu, Zeng Wei, Oyama M, Pu Wen-hong and Zhang Jing-dong, Analytical Sciences 23, 1421 (2007).
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DONG Chen-yang, LI Wen-zhan, WANG Zhi-hong, ZENG Jun-xiang, LIANG Jin-tao. An automated flow-batch analyzer based on spectro- photometry for the determination of nitrite[J]. Optoelectronics Letters,2019,15(5):339-342

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History
  • Received:January 15,2019
  • Revised:April 18,2019
  • Online: May 01,2020
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