Simple and Sensitive Photoluminescent Detection of Meropenem Using Cit-Capped CdS Quantum Dots as a Fluorescence Probe

Document Type : Research Paper

Authors

Department of Chemistry, Faculty of Science, Urmia University, Urmia, Iran

Abstract

In this research work,We have developed water soluble CdS quantum dot probes for detecting meropenem by using safe and low cost materials. This citrate capped CdS QDs are highly stable in aqueous solution and applied for selective and ultrasensitive Meropenem (MPN) sensing. The fluorescence intensities of CdS QDs were decreased linearly with increasing MPN in the wide range of 6×10−10 mol L−1 to 2.1×10−3 mol L−1. The limit of detection for meropenem determination was 0.5 nM. There was no significant wavelength shift on the fluorescence-quenched signals in the presence of the drug. The effect of common foreign ions and drugs on the fluorescence of the QDs was studied to evaluate the selectivity and the results showed a high selectivity of the Cit capped CdS QDs towards MPN. The validity of this method confirmed by high performance chromatography method (HPLC). The method presented here is simple, rapid, low cost, sensitive, inexpensive and suitable for practical applications.

Keywords

References

[1]       Y. Du, B. Xu, T. Fu, M. Cai, F. Li, Y. Zhang, Q. Wang, J. Am. Chem. Soc. 132 (2010) 1470.
[2]       T. Tang, L. Lee, S. Achilefu, J. Am. Chem. Soc. 134 (2012) 4545.
[3]       C. Frigerio, D.S.M. Ribeiro, S.S.M. Rodrigues, A. V.L.R.G. Abreu, B.J.A.C. Barbosa J.A.V. PriorK. L. Marques, J.L.M. Santos, Anal. Chim. Acta  735 (2012) 9.
[4]       C.W. Chan, J. Maxwell, S. Nie,  Curr. Opin. Biotech. 13 (2002) 40.
[5]       E.M. Ali, Y. Zheng, H. h. Yu, J.Y. Ying, Anal Chem. 79 (2007) 9452.
[6]       J.R. Lakowicz, I. Gryczynski, Z. Gryczynski, C.J. Murphy. J. Phys. Chem. B 103 (1999) 7613.
[7]       R.H. Yang, W.H. Chan, K.A. Li, J. Am. Chem. Soc. 125 (2003) 2884.
[8]       Y. Bao, J. Li, J. Zhu, Chin. Chem. Lett. 22 (2011) 843.
[9]       T. Ye,  S.  Lu,  J.  Wang,  J.  Lu,  Chin.  Chem. Lett. 22 (2011) 1253.
[10]    Y. Chen, Z. Rosenzweig, Anal. Chem.74 (2002) 5132.
[11]    Y. Shang, F. Wu, Microchim. Acta177 (2012) 333.
[12]    M. Koneswaran,R. Narayanaswamy, Sen. Actuators B 139 (2009) 104.
[13]    Y.S. Xia, C.Q. Zhu, Talanta 75 (2008) 215.
[14]    R. Gill, R. Freeman,J.P. Xu,I. Willner, S. Winograd,I. Shweky, U. Banin, J. Am. Chem. Soc.128 (2006) 15376.
[15]    Z. Zhelev, R. Bakalova, H. Ohba, R. Jose, Y. Imai, Y. Baba, Anal. Chem.78 (2006) 321.
[16]    T. Jin, F. Fujii, E. Yamada, Y. Nodasaka, M. Kinjo, J. Am. Chem. Soc. 128 (2006) 9288.
[17]    I.L. Medintz, H.T. Uyeda, E.R. Goldman, H. Mattoussi, Nat. Mater. 4 (2005) 435.
[18]    D.R. Larson, W.R. Zipfel, R.M. Williams, S.W. Clark, M.P. Bruchez,F.W. Wise, W.W. Webb,Science300 (2003) 1434.
[19]    M. Hou, J. Na, Anal. Bioanal. Chem. 397 (2010) 3589.
[20]    L. Guo, J. Zhong, J. Wu, F.F. Fu, G. Chen, X. Zheng, S. Lin, Talanta 82 (2010) 1654.
[21]    Z. He, H. Zhu, P. Zhou, J. Fluoresc. 22 (2012) 193.
[22]    N. Samadi, S. Masoum, B. Mehrara, H. Hosseini, J. Chromatogr. B1001 (2015) 75.
[23]    N. Samadi, S. Narimani, Spectrochim. Acta, Part A 163 (2016) 8.
[24]    S.C. Sowmith, B. Yadagiri, Y.L.N. Murthy, T. Krishna Mohan, Pharm. Res. 12 (2018) 378.
[25]    C. Akay, S. Ozkan, Z. Senturk, S. Cevheroglu, Farmaco57 (2002) 953.
[26]    M. Farré, I. Ferrer, A. Ginebreda, M. Figueras, L. Olivella, L. Tirapu, M. Vilanova, D. Barceló, J. Chromatogr. A938 (2001) 187.
 [27]    M.A. Pfaller, R.N. Jones, Microbiol. Infect. Dis.28 (1997) 157.
[28]    J.L. Blumer, Int. J. Antimicr.Agents 8 (1997) 73.
[29]    L.R. Wiseman, A.J. Wagstaff, R.N. Brogden, H.M. Bryson, Drugs50 (1995) 73.
[30]    J.S. Bradley, Infect. Dis. J.16 (1997) 263.
[31]    S. Bompadre, L. Ferrante, M. De Martinis, L. Leone, J. Chromatogr.A812 (1998) 249.
[32]    M. Ehrlich, F.D. Daschner, K.K¨ummerer, J. Chromatogr. B 751 (2001) 357.
[33]    Y. O¨zkan,I. Ku¨cu¨kgu¨zel, S.A. O¨zkan, Aboul-Eneim, Biomed. Chromatogr. 15 (2001) 263.
[34]    C. Robatel, T. Buclin, P. Eckert, M.D. Schaller, J. Biollaz, L.A. Decosterd, J. Pharm. Biomed. Anal. 29 (2002) 17.
[35]    S. Taniguchi, K. Hamase, A. Kinoshita, K. Zaitsu, J. Chromatogr. B 727 (1999) 219.
[36]    A.S.L. Mendez, M. Steppe,E.E.S. Schapoval. J. Pharm. Biom. Anal. 33 (2003) 947.
[37]    G.L. Wang, Y.M. Dong, H.X. Yang, Z.J. Li, Talanta  83 (2011) 943.
[38]    D.A. Skoog, F.J. Holler, T.A. Nieman, Principles of Instrumental Analysis, 7th ed., Saunders College, Philadelphia (1998) 601.
[39]    S. Shuang, J. Qiu, ActaPhys. Chim. Sin.25 (2009) 1342.
[40]    S. Bompadre, L. Ferrante, M. De Martinis, L. Leone, J. Chromatogr. A 812 (1998) 249.
[41]    D. Farin, R. Kitzes-Cohen, G. Piva, I. Gozlan, Chromatographia 49 (1999) 253.
[42]    T. Kitahashi, I. Furuta, J.Chromatogr.43 (2005) 430.
[43]    Y. Mrestani, R. Neubert, F. Nagel. J. Pharm. Biomed. Anal. 20 (1999) 899.
 
Analytical and Bioanalytical Chemistry Research
Volume 6, Issue 1
June 2019
Pages 47-57

Files

Share

How to cite

Statistics