Citation: . [J]. Chinese Journal of Chromatography, ;2015, 33(12): 1223-1225. doi: 10.3724/SP.J.1123.2015.10008 shu

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Corresponding author: , ,
Received Date: 8 October 2015

1. [1]
  [1] Mehdinia A, Aziz-Zanjani M O. TrAC-Trends Anal Chem, 2013, 42: 205
2. [2]
  [2] Wang C, Wu Q H, Wang Z, et al. Chinese Journal of Chromatography (王春, 吴秋华, 王志, 等. 色谱), 2006, 24(5): 516
3. [3]
  [3] Wang Y Y, Zhao G Y, Zang X H, et al. Chinese Journal of Analytical Chemistry (王莹莹, 赵广莹, 臧晓欢, 等. 分析化学), 2010, 38(10): 1517
4. [4]
  [4] Chen L G, Wang T, Tong J. TrAC-Trends Anal Chem, 2011, 30: 1095
5. [5]
  [5] Herrero-Latorre C, Barciela-García J, García-Martín S, et al. Anal Chim Acta, 2015, 892: 10
6. [6]
  [6] Zhang H, Zhou Y J, Song X K. Progress in Chemistry (张慧, 周雅静, 宋肖锴. 化学进展), 2015, 27(2/3): 174
7. [7]
  [7] Liu X L, Wang C, Wang Z C, et al. Microchim Acta, 2015, 182(11/12): 1903
8. [8]
  [8] Hao L, Wang C, Wu Q H, et al. Anal Chem, 2014, 86(24): 12199
9. [9]
  [9] Liu X L, Wang C, Wu Q H, et al. Anal Chim Acta, 2015, 870: 67
10. [10]
  [10] Hao L, Liu X L, Wang C, et al. Chinese Chem Lett, accepted
11. [11]
  [11] Liu X L, Hao L, Wang C, et al. Microchim Acta. DOI: 10.1007/s00604-015-1664-8
12. [12]
  [12] Wang L, Zang X H, Wang C, et al. Chinese Journal of Analytical Chemistry (王璐, 臧晓欢, 王春, 等. 分析化学), 2014, 42(1): 136
13. [13]
  [13] Li N, Chen J, Shi Y P. Talanta, 2015, 141: 212
14. [14]
  [14] Li F, Cai C C, Cheng J, et al. Microchim Acta, DOI: 10.1007/s00604-015-1619-0
15. [15]
  [15] Li Y Z, Wu X W, Li Z Q, et al. Talanta, DOI: 10.1016/j.talanta.2015.08.006
16. [16]
  [16] Mahpishanian S, Sereshti H, Baghdadi M. J Chromatogr A, 2015, 1406: 48
17. [17]
  [17] Khan M, Yilmaz E, Sevinc B, et al. Talanta, 2016, 146: 130
18. [18]
  [18] Wang X Y, Deng C H. Talanta, DOI: 10.1016/j.talanta.2015.08.014
19. [19]
  [19] Javidi J, Esmaeilpour M, Khansar M R. RSC Adv, 2015, 5: 73268
20. [20]
  [20] Liu L, Zhang Z H, Wang C, et al. Food Anal Methods, DOI: 10.1007/s12161-015-0181-z
21. [21]
  [21] Luo Z, Li Z, Liu H, et al. Microchim Acta, DOI: 10.1007/s00604-015-1638-x
22. [22]
  [22] Xue S W, Tang M Q, Xu L, et al. J Chromatogr A, 2015, 1411: 9
23. [23]
  [23] Ebrahimpour B, Yamini Y, Seidi S, et al. Anal Chim Acta, 2015, 885: 98
24. [24]
  [24] Amiri A, Baghayeri M, Nori S. J Chromatogr A, 2015, 1415: 20
25. [25]
  [25] Maya F, Cabello C P, Estela J M, et al. Anal Chem, 2015, 87: 7545
26. [26]
  [26] Manbohi A, Ahmadi S H. Anal Chim Acta, 2015, 885: 114
27. [27]
  [27] Pérez R A, Albero B, Tadeo J L, et al. Microchim Acta, DOI: 10.1007/s00604-015-1617-2
28. [28]
  [28] Wang H, Zhao X L, Meng W, et al. Anal Chem, 2015, 87: 7667
29. [29]
  [29] Ma S S, He M, Chen B B, et al. Talanta, 2016, 146: 93
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