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Recognition and fast separation of Paclobutrazol pesticides via molecular imprinted silica nanoparticles

Year 2017, Volume: 30 Issue: 3, 267 - 272, 20.09.2017

Abstract

In
this study, molecularly imprinted silica nanoparticles was prepared with
surface imprinting method for specific recognition with high affinity and
separation of paclobutrazol in honey samples. To prepare molecularly imprinted
silica nanoparticles, Paclobutrazol was used as template molecule,
2-hydroxyethyl methacrylate as monomer, 1,2-ethyleneglycoldimethacrylate as
crooslinking agent. Furthermore, MIP SNPs were synthesized by single electron
transfer living radical polymerization. The prepared nanoparticles can be
easily separated and collected by ultrasantrifuge with 140000 rpm and exhibited
highly selectivity to template molecules. All rebinding studies showed that the
MIP SNPs had excellent recognition towards Paclobutrazol. T
he recoveries of PB in the spiking honey samples changed from 98.7%
to 99.9% with the relative deviation from 8.62% to 4.92% According to all results
, MIP SNPs can be good alternative for selective recognition and efficient
separation of pesticides in real samples.

References

  • [1] Kmellar, B., Abranko, L., Fodor, P., Lehotay, S. J., “Routine approach to qualitatively screening 300 pesticides and quantification of those frequently detected in fruit and vegetables using liquid chromatography tandem mass spectrometry (LC-MS/MS)”, Food Addit. Contam. Part A-Chem. Anal. Control Expo Risk Assess, 24: 1415-1430, (2010).
  • [2] Bordagary, A., Garcia-Arrona, R., Millan, E., “Development and application of a screening method fortriazole fungicide determination in liquid and fruit samples using solid-phase microextraction and HPLC-DAD.”, Analytical Methods, 10: 2565-2571, (2013).
  • [3] Cheng, Y., Dong, F., Liu, X., Xu, J., Li, J., Chen, X., Li, Y., Wu, X., Zheng, Y., “Stereoselective separation and determination of the triazolefungicide propconazole in water, soil and grape by normal phase HPLC.”, Analytical Methods, 3: 755-761, (2013).
  • [4] Farajzadeh, M.A., Mogaddam, M.R.A., Ghorbanpour, H., “Development of a new microextraction method based on elevated temperature dispersive liquid-liquid microextraction for determination of triazole pesticides residues in honey by gas chromatography-nitrogen phosphorus detection.”, Journal of Chromatography A, 1347: 8-16, (2014).
  • [5] Fu, G., He, H., Chai, Z., Chen, H., Kong, J., Wang, Y., Jiang, Y., “Enhanced Lysozyme Imprinting Over Nanoparticles Functinalized with Carboxyl Groups for Noncovalent Template Sorption”, Anal. Chem., 83: 1431-1436, (2011).
  • [6] Turan, E., Şahin, F., “Molecularly imprinted biocompatible magnetic nanoparticles for specific recognition of Ochratoxin A”, Sensors and Actuators B:Chem., 227: 668-676, (2016).
  • [7] Chen, T., Shao, M., Xu, H., Zhuo, S., Liu, S., Lee, S-T., “Molecularly imprinted polymer-coated silicon nanowires for protein specific recognition and fast separation”, J of Mater. Chem., 22: 3990-3996, (2012).
  • [8] Stöber, W., Fink, A., Bohn, E., “Controlled growth of monodisperse silica spheres in the micron size range”, J. Colloid Inter. Sci., 26: 62-69, (1968).
  • [9] Fatoni, A., Numnuam, A., Kanatharana, P., Limbut, W., Thavarungkul, P., “A novel molecularly imprinted chitosan-acrylamide, graphene,ferrocene composite cryogel biosensor used to detect microalbumin”, Analyst, 139: 6160-6167, (2014).
  • [10] Li, L., He, X., Chen, L., Zhang, Y., “Preparation of Core-shell Magnetic Molecularly Imprinted Polymer Nanoparticles for Recognition of Bovine Hemoglobin”, Chem. Asian J., 4: 286-293, (2009).
  • [11] Xiao, D., Wang, C., Dai, H., Peng, J., He, J., Zhang, K., Kong, S., Qiu, P., He, H., “Applications of magnetic surface imprinted materials for solid phase extraction of levofloxacin in serum samples”, J. Mol. Recognit., 28: 277-284, (2015).
Year 2017, Volume: 30 Issue: 3, 267 - 272, 20.09.2017

Abstract

References

  • [1] Kmellar, B., Abranko, L., Fodor, P., Lehotay, S. J., “Routine approach to qualitatively screening 300 pesticides and quantification of those frequently detected in fruit and vegetables using liquid chromatography tandem mass spectrometry (LC-MS/MS)”, Food Addit. Contam. Part A-Chem. Anal. Control Expo Risk Assess, 24: 1415-1430, (2010).
  • [2] Bordagary, A., Garcia-Arrona, R., Millan, E., “Development and application of a screening method fortriazole fungicide determination in liquid and fruit samples using solid-phase microextraction and HPLC-DAD.”, Analytical Methods, 10: 2565-2571, (2013).
  • [3] Cheng, Y., Dong, F., Liu, X., Xu, J., Li, J., Chen, X., Li, Y., Wu, X., Zheng, Y., “Stereoselective separation and determination of the triazolefungicide propconazole in water, soil and grape by normal phase HPLC.”, Analytical Methods, 3: 755-761, (2013).
  • [4] Farajzadeh, M.A., Mogaddam, M.R.A., Ghorbanpour, H., “Development of a new microextraction method based on elevated temperature dispersive liquid-liquid microextraction for determination of triazole pesticides residues in honey by gas chromatography-nitrogen phosphorus detection.”, Journal of Chromatography A, 1347: 8-16, (2014).
  • [5] Fu, G., He, H., Chai, Z., Chen, H., Kong, J., Wang, Y., Jiang, Y., “Enhanced Lysozyme Imprinting Over Nanoparticles Functinalized with Carboxyl Groups for Noncovalent Template Sorption”, Anal. Chem., 83: 1431-1436, (2011).
  • [6] Turan, E., Şahin, F., “Molecularly imprinted biocompatible magnetic nanoparticles for specific recognition of Ochratoxin A”, Sensors and Actuators B:Chem., 227: 668-676, (2016).
  • [7] Chen, T., Shao, M., Xu, H., Zhuo, S., Liu, S., Lee, S-T., “Molecularly imprinted polymer-coated silicon nanowires for protein specific recognition and fast separation”, J of Mater. Chem., 22: 3990-3996, (2012).
  • [8] Stöber, W., Fink, A., Bohn, E., “Controlled growth of monodisperse silica spheres in the micron size range”, J. Colloid Inter. Sci., 26: 62-69, (1968).
  • [9] Fatoni, A., Numnuam, A., Kanatharana, P., Limbut, W., Thavarungkul, P., “A novel molecularly imprinted chitosan-acrylamide, graphene,ferrocene composite cryogel biosensor used to detect microalbumin”, Analyst, 139: 6160-6167, (2014).
  • [10] Li, L., He, X., Chen, L., Zhang, Y., “Preparation of Core-shell Magnetic Molecularly Imprinted Polymer Nanoparticles for Recognition of Bovine Hemoglobin”, Chem. Asian J., 4: 286-293, (2009).
  • [11] Xiao, D., Wang, C., Dai, H., Peng, J., He, J., Zhang, K., Kong, S., Qiu, P., He, H., “Applications of magnetic surface imprinted materials for solid phase extraction of levofloxacin in serum samples”, J. Mol. Recognit., 28: 277-284, (2015).
There are 11 citations in total.

Details

Journal Section Chemistry
Authors

Eylem Turan

Publication Date September 20, 2017
Published in Issue Year 2017 Volume: 30 Issue: 3

Cite

APA Turan, E. (2017). Recognition and fast separation of Paclobutrazol pesticides via molecular imprinted silica nanoparticles. Gazi University Journal of Science, 30(3), 267-272.
AMA Turan E. Recognition and fast separation of Paclobutrazol pesticides via molecular imprinted silica nanoparticles. Gazi University Journal of Science. September 2017;30(3):267-272.
Chicago Turan, Eylem. “Recognition and Fast Separation of Paclobutrazol Pesticides via Molecular Imprinted Silica Nanoparticles”. Gazi University Journal of Science 30, no. 3 (September 2017): 267-72.
EndNote Turan E (September 1, 2017) Recognition and fast separation of Paclobutrazol pesticides via molecular imprinted silica nanoparticles. Gazi University Journal of Science 30 3 267–272.
IEEE E. Turan, “Recognition and fast separation of Paclobutrazol pesticides via molecular imprinted silica nanoparticles”, Gazi University Journal of Science, vol. 30, no. 3, pp. 267–272, 2017.
ISNAD Turan, Eylem. “Recognition and Fast Separation of Paclobutrazol Pesticides via Molecular Imprinted Silica Nanoparticles”. Gazi University Journal of Science 30/3 (September 2017), 267-272.
JAMA Turan E. Recognition and fast separation of Paclobutrazol pesticides via molecular imprinted silica nanoparticles. Gazi University Journal of Science. 2017;30:267–272.
MLA Turan, Eylem. “Recognition and Fast Separation of Paclobutrazol Pesticides via Molecular Imprinted Silica Nanoparticles”. Gazi University Journal of Science, vol. 30, no. 3, 2017, pp. 267-72.
Vancouver Turan E. Recognition and fast separation of Paclobutrazol pesticides via molecular imprinted silica nanoparticles. Gazi University Journal of Science. 2017;30(3):267-72.