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Fe(III) İyonu Tayini İçin Fluoresans Sensör Geliştirilmesi

Year 2021, , 324 - 328, 31.03.2021
https://doi.org/10.7240/jeps.847802

Abstract

Düşük maliyet ve yüksek dayanıklılığı sayesinde vazgeçilmez bir metal olan demir, gıda sektöründen otomotiv sektörüne, beyaz eşyalardan kırtasiye malzemelerine kadar birçok alanda kullanılmaktadır. Aynı zamanda her canlı organizmanın biyolojik olarak temel bir bileşenidir. Demir iyonları hücrelerde aşırı veya düşük miktarda bulunduğunda birçok hastalık oluşabilmektedir. Bu nedenlerden dolayı Fe(III) iyonlarının tayin edilmesi oldukça önemlidir. Günümüze kadar yapılan başlıca Fe(III) tayini çalışmaları; voltametri, kapiler elektroforez, indüktif eşleşmiş plazma kütle spektrometrisi (ICP-MS) ve alevli atomik absorpsiyon spektroskopisi (FAAS) gibi yöntemleri içermektedir. Bu yöntemlerin hemen hemen hepsi karmaşık ve çok basamaklı örnek hazırlama prosedürleri içerdiği için zaman alıcı olmaktadır. Çalışmamızda, fotopolimerizasyon tekniği ile hazırlanan polimerik bir membran kullanılarak Fe(III) iyonlarının tayini için yeni bir yöntem geliştirilmiştir. Membranın yapısal ve morfolojik özellikleri incelenmiş ve ardından pH, kalibrasyon aralığı, duyarlılık, seçicilik, cevap süresi ve tekrarlanabilirlik gibi parametreler sistematik olarak incelenmiştir. Geliştirilen polimerik sensör, tatmin edici sonuçlarla gıda ve su örneklerinde Fe (III) iyonlarının tayinine başarılı bir şekilde uygulanmıştır.

Supporting Institution

Marmara Üniversitesi BAPKO

Project Number

FEN-C-YLP-230119-0008

Thanks

Bu çalışma FEN-C-YLP-230119-0008 numaralı Marmara Üniversitesi BAPKO Lisansüstü Tez projesi kapsamında desteklenmiştir.

References

  • Liu, S.R., Wu, S.P. (2012). New water-soluble highly selective fluorescent chemosensor for Fe (III) ions and its application to living cell imaging. Sensors and Actuators B, 171-172,1110-1116.
  • Bricks, J.L., Kovalchuk, A., Trieflinger, C., Nofz, M., Büschel, M., Tolmachev, A.I., Daub, J., Rurack, K. (2005). On the Development of Sensor Molecules that Display FeIII-amplified Fluorescence. J. Am. Chem. Soc., 127,13522-13529.
  • Abbaspour, N., Hurrell, R., Kelishadi, R. (2014). Review on iron and its importance for human health. J. Res. Med. Sci., 19(2), 164–174.
  • Wei, D., Sun, Y., Yin, J., Wei, G., Du, Y. (2011). Design and application of Fe3+ probe for “naked-eye” colorimetric detection in fully aqueous system. Sensors and Actuators B, 160, 1316–1321.
  • Xiang,Y., Tong, A. (2006). A New Rhodamine-Based Chemosensor Exhibiting Selective FeIII-Amplified Fluorescence. Org. Lett., 8(8),1549-1552.
  • Huang, S., Li, Z., Li, S., Yin, J., Liu, S. (2012). Imidazole-based dithienylethenes as a selective chemosensors for iron(III) ions. Dyes and Pigments, 92,961-966.
  • Timerbaev, A.R., Dabek-Zlotorzynska, E., Marc van den Hoop, A.G.T. (1999). Inorganic environmental analysis by capillary electrophoresis, Analyst, 124,811–826.
  • Van den Berg, C.M.G. (2006). Chemical speciation of iron in seawater by cathodic stripping voltammetry with dihydroxynaphthalene. Analytical Chemistry., 78,156–163.
  • Castillo Busto, M.E., Montes-Bayon, M., Blanco-Gonzalez, E., Meija, J., Sanz Medel, A. (2005). Strategies to study human serum transferrin isoforms using integrate liquid chromatography ICPMS, MALDI-TOF, and ESI-Q-TOF detection: application to chronic alcohol abuse. Analytical Chemistry, 77, 5615–5621.
  • Pomazal, K., Prohaska, C., Steffan, I., Reich, G., Huber, J.F.K. (1999). Determination of Cu,Fe, Mn, and Zn in blood fractions by SEC–HPLC–ICP–AES coupling. Analyst, 124, 657–663.
  • Vanloot, P., Coulomb, B., Brach-Papa, C., Sergent, M., Boudenne, J.L. (2007). Multivariate optimization of solid-phase extraction applied to iron determination in finished waters, Chemosphere, 69, 1351–1360.
  • Shamspur, T., Sheikhshoaie,I., Mashhadizadeh, M.H. (2005). Flame atomic absorption spectroscopy (FAAS) determination of iron (III) after pre-concentration onto modified analcime zeolite with 5-((4-nitrophenylazo)-N-(2′ ,4′ -dimethoxy phenyl)) salicylaldimine by column method. J. Anal. At. Spectrom., 20, 476–478.
  • Andersen, J.E.T. (2005). A novel method for the filterless preconcentration of iron. Analyst, 130, 385–390.
  • Syal, A., Sud, D. (2018). Development of highly selective novel fluorescence quenching probe based on Bi2S3-TiO2 nanoparticles for sensing the Fe(III). Sensors and Actuators B, 266,1–8.
  • Çubuk, S., Firlak, M., Taşci, N., Yetimoğlu, E.K., & Kahraman, M.V. (2016). Phosphonic acid based polymeric fluorescent sensor for Hg(II) analysis. Sensors and Actuators B-chemical, 224, 640-647.
  • Firlak, M., Çubuk, S., Yetimoğlu, E.K., & Kahraman, M.V. (2016). Recovery of Au(III) ions by Au(III)-imprinted hydrogel. Chemical Papers, 70, 757-768.
Year 2021, , 324 - 328, 31.03.2021
https://doi.org/10.7240/jeps.847802

Abstract

Project Number

FEN-C-YLP-230119-0008

References

  • Liu, S.R., Wu, S.P. (2012). New water-soluble highly selective fluorescent chemosensor for Fe (III) ions and its application to living cell imaging. Sensors and Actuators B, 171-172,1110-1116.
  • Bricks, J.L., Kovalchuk, A., Trieflinger, C., Nofz, M., Büschel, M., Tolmachev, A.I., Daub, J., Rurack, K. (2005). On the Development of Sensor Molecules that Display FeIII-amplified Fluorescence. J. Am. Chem. Soc., 127,13522-13529.
  • Abbaspour, N., Hurrell, R., Kelishadi, R. (2014). Review on iron and its importance for human health. J. Res. Med. Sci., 19(2), 164–174.
  • Wei, D., Sun, Y., Yin, J., Wei, G., Du, Y. (2011). Design and application of Fe3+ probe for “naked-eye” colorimetric detection in fully aqueous system. Sensors and Actuators B, 160, 1316–1321.
  • Xiang,Y., Tong, A. (2006). A New Rhodamine-Based Chemosensor Exhibiting Selective FeIII-Amplified Fluorescence. Org. Lett., 8(8),1549-1552.
  • Huang, S., Li, Z., Li, S., Yin, J., Liu, S. (2012). Imidazole-based dithienylethenes as a selective chemosensors for iron(III) ions. Dyes and Pigments, 92,961-966.
  • Timerbaev, A.R., Dabek-Zlotorzynska, E., Marc van den Hoop, A.G.T. (1999). Inorganic environmental analysis by capillary electrophoresis, Analyst, 124,811–826.
  • Van den Berg, C.M.G. (2006). Chemical speciation of iron in seawater by cathodic stripping voltammetry with dihydroxynaphthalene. Analytical Chemistry., 78,156–163.
  • Castillo Busto, M.E., Montes-Bayon, M., Blanco-Gonzalez, E., Meija, J., Sanz Medel, A. (2005). Strategies to study human serum transferrin isoforms using integrate liquid chromatography ICPMS, MALDI-TOF, and ESI-Q-TOF detection: application to chronic alcohol abuse. Analytical Chemistry, 77, 5615–5621.
  • Pomazal, K., Prohaska, C., Steffan, I., Reich, G., Huber, J.F.K. (1999). Determination of Cu,Fe, Mn, and Zn in blood fractions by SEC–HPLC–ICP–AES coupling. Analyst, 124, 657–663.
  • Vanloot, P., Coulomb, B., Brach-Papa, C., Sergent, M., Boudenne, J.L. (2007). Multivariate optimization of solid-phase extraction applied to iron determination in finished waters, Chemosphere, 69, 1351–1360.
  • Shamspur, T., Sheikhshoaie,I., Mashhadizadeh, M.H. (2005). Flame atomic absorption spectroscopy (FAAS) determination of iron (III) after pre-concentration onto modified analcime zeolite with 5-((4-nitrophenylazo)-N-(2′ ,4′ -dimethoxy phenyl)) salicylaldimine by column method. J. Anal. At. Spectrom., 20, 476–478.
  • Andersen, J.E.T. (2005). A novel method for the filterless preconcentration of iron. Analyst, 130, 385–390.
  • Syal, A., Sud, D. (2018). Development of highly selective novel fluorescence quenching probe based on Bi2S3-TiO2 nanoparticles for sensing the Fe(III). Sensors and Actuators B, 266,1–8.
  • Çubuk, S., Firlak, M., Taşci, N., Yetimoğlu, E.K., & Kahraman, M.V. (2016). Phosphonic acid based polymeric fluorescent sensor for Hg(II) analysis. Sensors and Actuators B-chemical, 224, 640-647.
  • Firlak, M., Çubuk, S., Yetimoğlu, E.K., & Kahraman, M.V. (2016). Recovery of Au(III) ions by Au(III)-imprinted hydrogel. Chemical Papers, 70, 757-768.
There are 16 citations in total.

Details

Primary Language Turkish
Journal Section Research Articles
Authors

Soner Çubuk 0000-0003-4002-6574

Didem Aydın This is me 0000-0001-7865-6091

Memet Vezir Kahraman 0000-0003-1043-6476

Project Number FEN-C-YLP-230119-0008
Publication Date March 31, 2021
Published in Issue Year 2021

Cite

APA Çubuk, S., Aydın, D., & Kahraman, M. V. (2021). Fe(III) İyonu Tayini İçin Fluoresans Sensör Geliştirilmesi. International Journal of Advances in Engineering and Pure Sciences, 33(2), 324-328. https://doi.org/10.7240/jeps.847802
AMA Çubuk S, Aydın D, Kahraman MV. Fe(III) İyonu Tayini İçin Fluoresans Sensör Geliştirilmesi. JEPS. March 2021;33(2):324-328. doi:10.7240/jeps.847802
Chicago Çubuk, Soner, Didem Aydın, and Memet Vezir Kahraman. “Fe(III) İyonu Tayini İçin Fluoresans Sensör Geliştirilmesi”. International Journal of Advances in Engineering and Pure Sciences 33, no. 2 (March 2021): 324-28. https://doi.org/10.7240/jeps.847802.
EndNote Çubuk S, Aydın D, Kahraman MV (March 1, 2021) Fe(III) İyonu Tayini İçin Fluoresans Sensör Geliştirilmesi. International Journal of Advances in Engineering and Pure Sciences 33 2 324–328.
IEEE S. Çubuk, D. Aydın, and M. V. Kahraman, “Fe(III) İyonu Tayini İçin Fluoresans Sensör Geliştirilmesi”, JEPS, vol. 33, no. 2, pp. 324–328, 2021, doi: 10.7240/jeps.847802.
ISNAD Çubuk, Soner et al. “Fe(III) İyonu Tayini İçin Fluoresans Sensör Geliştirilmesi”. International Journal of Advances in Engineering and Pure Sciences 33/2 (March 2021), 324-328. https://doi.org/10.7240/jeps.847802.
JAMA Çubuk S, Aydın D, Kahraman MV. Fe(III) İyonu Tayini İçin Fluoresans Sensör Geliştirilmesi. JEPS. 2021;33:324–328.
MLA Çubuk, Soner et al. “Fe(III) İyonu Tayini İçin Fluoresans Sensör Geliştirilmesi”. International Journal of Advances in Engineering and Pure Sciences, vol. 33, no. 2, 2021, pp. 324-8, doi:10.7240/jeps.847802.
Vancouver Çubuk S, Aydın D, Kahraman MV. Fe(III) İyonu Tayini İçin Fluoresans Sensör Geliştirilmesi. JEPS. 2021;33(2):324-8.