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Development of PVC membrane potentiometric sensor for the determination of potassium ion and its applications

Yıl 2021, Cilt: 27 Sayı: 7, 851 - 855, 31.12.2021

Öz

In this study, a novel all-solid-state contact poly(vinylchloride) (PVC) membrane potassium selective sensor with a pyrazole derivative molecule as an ionophore has been developed. The potassium selective sensor has a composition of PVC, ionophore, anion excluder (potassium tetrakis (p-chlorophenyl)borat (KTpClPB)) and plasticizer (bis(2- ethylhexyl)adipate (DEHA)) in the ratio of 32.0:4.0:1.0:63.0 (mg). The potassium selective sensor works in a linear concentration range of 1.0×10-5 to 1.0×10-1 M with a low detection limit of 6.02 × 10−6 M The developed potassium selective sensor works in pH range of 6.0-10.0 and has good repeatability, selectivity and a short response time of 10 seconds. Finally, the developed potassium selective sensor was successfully used in the determination of potassium in tap water and a drug sample.

Kaynakça

  • [1] Abedi MR, Zamani HA. “Barium(II)-PVC membrane sensor based on 4-4′-methylenediantipyrine as a neutral carrier”. Analytical Letters, 41(12), 2251-2266, 2008.
  • [2] Shamsipur M, Soleymanpouri A, Akhond M, Sharghib H. “New macrocyclic diamides as neutral ionophores for highly selective and sensitive PVC-membrane electrodes for Be2+ ion”. Electroanalysis, 16(4), 282-288, 2004.
  • [3] Kanberoglu GS, Coldur F, Topcu C, Cubuk O. “PVCmembrane potentiometric sensor for the determination of Tamoxifen in pharmaceutical formulations”. IEEE Sensors Journal, 15(11), 6199-6207, 2015.
  • [4] Isildak O, Deligönül N, Özbek O. “A novel silver (I)- selective PVC membrane sensor and its potentiometric aplications”. Turkish Journal of Chemistry, 43(4), 1149- 1158, 2019.
  • [5] Gupta VK, Goyal RN, Al-Khayat MA, Kumar P, Bachheti, N. “A new Zn(II)-selective potentiometric sensor based on 4- tert-butylcalix[4]arene in PVC matrix”. Talanta, 69(5), 1149-1155, 2006.
  • [6] Ding L, Ding J, Ding B, Qin W “Solid-Contact potentiometric sensor for the determination of total ammonia nitrogen in seawater”. Interational Journal of Electrochemistry Science, 12(4), 3296-3308, 2017.
  • [7] Rezaei B, Hadadzadeh H, Azimi A. “Nickel(II) Selective PVC-based membrane sensor using a schiff base”. International Journal of Spectroscopy, 1-7, 2011.
  • [8] Isildak O, Özbek O. “Application of potentiometric sensors in real samples”. Critical Reviews in Analytical Chemistry, 51(3), 218-231, 2021.
  • [9] Holliday MA, Segar WE, Bright NH, Egan T. “The effect of potassium deficiency on the kidney”. Pediatrics, 26, 950-959, 1960.
  • [10] Weaver CN. “Potassium and health”. Advances in Nutrition, 4(3), 368-377, 2013.
  • [11] Yu BS, Nie LH, Yao SZ. “Ion chromatographic study of sodium, potassium and ammonium in human body fluids with bulk acoustic wave detection”. Journal of Chromatography B: Biomedical Sciences and Applications, 693(1), 43-49, 1997.
  • [12] Lima AS, Bocchi N, Gomes HM, Teixeira MFS. “An electrochemical sensor based on nanostructured hollandite-type manganese oxide for detection of potassium ıons”. Sensors, 9(9), 6613-6625, 2009.
  • [13] Yu K, He N, Kumar N, Wang N, Bobacka J, Ivaska A. “Electrosynthesized polypyrrole/zeolite composites as solid contact in potassium ion-selective electrode”. Electrochimica Acta, 228(40), 66-75, 2017.
  • [14] Bladh E, Gedda O. “A new method for determination of potassium in serum”. Scandinavian Journal of Clinical and Laboratory Investigation, 12(3), 274-276, 1960.
  • [15] Doku GN, Gadzekpo VPY. “Simultaneous determination of lithium, sodium and potassium in blood serum by flame photometric flow-injection analysis”. Talanta, 43(5), 735-739, 1996.
  • [16] Gürdere MB, Özbek O, Ceylan M. “Aluminum chloride– catalyzed C-alkylation of pyrrole and indole with chalcone and bis-chalcone derivatives”. Synthetic Communications, 46(4), 322-331, 2016.
  • [17] Özbek O, Usta NC, Gürdere MB, Aslan ON, Budak Y, Ceylan M. “Synthesis and antibacterial screening of novel 2-(4- (aryl)thiazol-2-yl)-3a,4,7,7a-tetrahydro-1H-4,7-ethanoisoindole-1,3(2H)-dione derivatives”. Phosphorus, Sulfur, and Silicon and the Related Elements, 192(10), 1153-1157, 2017.
  • [18] Budak Y, Cakir AD, Özbek O, Gürdere MB, Ceylan M. “İsoindolsübstitüe-kalkon türevlerine iyot katalizli tiyofenol katılması”. Bilecik Şeyh Edebali Üniversitesi Fen Bilimleri Dergisi, 7(1), 161-169, 2020.
  • [19] Karrouchi K, Radi S, Ramli Y, Taoufik J, Mabkhot YN, Alaizari FA, Ansar M. “Synthesis and pharmacological activities of pyrazole derivatives: a review”. Molecules, 23(1), 134-220, 2018.
  • [20] Gürdere MB, Kamo E, Budak Y, Sahin Yağlıoğlu A, Ceylan M. “Synthesis and anticancer and cytotoxic effects of novel 1,4-phenylene-bis-N-thiocarbamoylpyrazole and 1,4- phenylene-bis-pyrazolylthiazole derivatives”. Turkish Journal of Chemistry, 41(2), 179-189, 2017.
  • [21] Isildak O, Özbek O, Yigit KM. “Zinc(II)-selective PVC membrane potentiometric sensor for analysis of Zn2+ in drug sample and different environmental samples”. International Journal of Environmental Analytical Chemistry, 101(14), 2035-2045, 2021.
  • [22] Isildak O, Özbek O. “Silver(I)-selective PVC membrane potentiometric sensor based on 5,10,15,20-tetra(4- pyridyl)-21H,23H-porphine and potentiometric applications”. Journal of Chemical Science, 132, 1-8, 2020.
  • [23] IUPAC. “Recommendations for nomenclature of ionselective electrodes”. Pure and Applied Chemistry, 48(1), 127-132, 1976.
  • [24] Kemer B, Ozdemir M. “Potentiometric utility of the new solid-state sensor based on crowned ionophore for the determination of K+”. Turkish Journal of Chemistry, 32(5), 521-528, 2008.
  • [25] Michalska A, Hulanicki A, Lewenstam A. “All-solid-state potentiometric sensors for potassium and sodium based on poly(pyrrole) solid contact”. Microchemical Journal, 57(1), 59-64, 1997.
  • [26] Tran TNT, Qui S, Chung H-J. “Potassium Ion Selective Electrode Using Polyaniline and Matrix-Supported IonSelective PVC Membrane. IEEE Sensors Journal, 18(22), 9081-9087, 2018.
  • [27] Vardar G, Altıkatoğlu M, Ortaç D, Cemek M, Isildak I. “Measuring calcium, potassium, and nitrate in plant nutrient solutions using ion-selective electrodes in hydroponic greenhouse of some vegetables”. Biotechnology and Applied Biochemistry, 62(5), 663-668, 2015.

Potasyum iyonunun tayini için PVC membran potansiyometrik sensör geliştirilmesi ve uygulamaları

Yıl 2021, Cilt: 27 Sayı: 7, 851 - 855, 31.12.2021

Öz

kullanıldığı yeni tümüyle katı hal kontak poli(vinilklorür) (PVC) membran potasyum sensörü geliştirildi. Potasyum seçici sensör PVC, iyonofor, potasyum tetrakis (p-klorofenil)borat (KTpClPB)) ve plastikleştirici (bis (2-etilheksil)adipat (DEHA))’ın 32.0:4.0:1.0:63.0 (mg)’lık bileşimine sahiptir. Geliştirilen potasyum seçici sensör, 6.02×10- 6 M’lık düşük algılama limiti ile 1.0×10-5 -1.0×10-1 M konsantrasyon aralığında doğrusal olarak çalışmaktadır. Geliştirilen potasyum seçici sensör pH 6.0-10.0 aralığında çalışmaktadır, iyi tekrarlanabilirlik, iyi seçicilik ve 10 saniyelik kısa cevap zamanına sahiptir. Son olarak, geliştirilen potasyum seçici sensör musluk suyu ve ilaç örneğinde potasyum tayininde başarıyla kullanılmıştır

Kaynakça

  • [1] Abedi MR, Zamani HA. “Barium(II)-PVC membrane sensor based on 4-4′-methylenediantipyrine as a neutral carrier”. Analytical Letters, 41(12), 2251-2266, 2008.
  • [2] Shamsipur M, Soleymanpouri A, Akhond M, Sharghib H. “New macrocyclic diamides as neutral ionophores for highly selective and sensitive PVC-membrane electrodes for Be2+ ion”. Electroanalysis, 16(4), 282-288, 2004.
  • [3] Kanberoglu GS, Coldur F, Topcu C, Cubuk O. “PVCmembrane potentiometric sensor for the determination of Tamoxifen in pharmaceutical formulations”. IEEE Sensors Journal, 15(11), 6199-6207, 2015.
  • [4] Isildak O, Deligönül N, Özbek O. “A novel silver (I)- selective PVC membrane sensor and its potentiometric aplications”. Turkish Journal of Chemistry, 43(4), 1149- 1158, 2019.
  • [5] Gupta VK, Goyal RN, Al-Khayat MA, Kumar P, Bachheti, N. “A new Zn(II)-selective potentiometric sensor based on 4- tert-butylcalix[4]arene in PVC matrix”. Talanta, 69(5), 1149-1155, 2006.
  • [6] Ding L, Ding J, Ding B, Qin W “Solid-Contact potentiometric sensor for the determination of total ammonia nitrogen in seawater”. Interational Journal of Electrochemistry Science, 12(4), 3296-3308, 2017.
  • [7] Rezaei B, Hadadzadeh H, Azimi A. “Nickel(II) Selective PVC-based membrane sensor using a schiff base”. International Journal of Spectroscopy, 1-7, 2011.
  • [8] Isildak O, Özbek O. “Application of potentiometric sensors in real samples”. Critical Reviews in Analytical Chemistry, 51(3), 218-231, 2021.
  • [9] Holliday MA, Segar WE, Bright NH, Egan T. “The effect of potassium deficiency on the kidney”. Pediatrics, 26, 950-959, 1960.
  • [10] Weaver CN. “Potassium and health”. Advances in Nutrition, 4(3), 368-377, 2013.
  • [11] Yu BS, Nie LH, Yao SZ. “Ion chromatographic study of sodium, potassium and ammonium in human body fluids with bulk acoustic wave detection”. Journal of Chromatography B: Biomedical Sciences and Applications, 693(1), 43-49, 1997.
  • [12] Lima AS, Bocchi N, Gomes HM, Teixeira MFS. “An electrochemical sensor based on nanostructured hollandite-type manganese oxide for detection of potassium ıons”. Sensors, 9(9), 6613-6625, 2009.
  • [13] Yu K, He N, Kumar N, Wang N, Bobacka J, Ivaska A. “Electrosynthesized polypyrrole/zeolite composites as solid contact in potassium ion-selective electrode”. Electrochimica Acta, 228(40), 66-75, 2017.
  • [14] Bladh E, Gedda O. “A new method for determination of potassium in serum”. Scandinavian Journal of Clinical and Laboratory Investigation, 12(3), 274-276, 1960.
  • [15] Doku GN, Gadzekpo VPY. “Simultaneous determination of lithium, sodium and potassium in blood serum by flame photometric flow-injection analysis”. Talanta, 43(5), 735-739, 1996.
  • [16] Gürdere MB, Özbek O, Ceylan M. “Aluminum chloride– catalyzed C-alkylation of pyrrole and indole with chalcone and bis-chalcone derivatives”. Synthetic Communications, 46(4), 322-331, 2016.
  • [17] Özbek O, Usta NC, Gürdere MB, Aslan ON, Budak Y, Ceylan M. “Synthesis and antibacterial screening of novel 2-(4- (aryl)thiazol-2-yl)-3a,4,7,7a-tetrahydro-1H-4,7-ethanoisoindole-1,3(2H)-dione derivatives”. Phosphorus, Sulfur, and Silicon and the Related Elements, 192(10), 1153-1157, 2017.
  • [18] Budak Y, Cakir AD, Özbek O, Gürdere MB, Ceylan M. “İsoindolsübstitüe-kalkon türevlerine iyot katalizli tiyofenol katılması”. Bilecik Şeyh Edebali Üniversitesi Fen Bilimleri Dergisi, 7(1), 161-169, 2020.
  • [19] Karrouchi K, Radi S, Ramli Y, Taoufik J, Mabkhot YN, Alaizari FA, Ansar M. “Synthesis and pharmacological activities of pyrazole derivatives: a review”. Molecules, 23(1), 134-220, 2018.
  • [20] Gürdere MB, Kamo E, Budak Y, Sahin Yağlıoğlu A, Ceylan M. “Synthesis and anticancer and cytotoxic effects of novel 1,4-phenylene-bis-N-thiocarbamoylpyrazole and 1,4- phenylene-bis-pyrazolylthiazole derivatives”. Turkish Journal of Chemistry, 41(2), 179-189, 2017.
  • [21] Isildak O, Özbek O, Yigit KM. “Zinc(II)-selective PVC membrane potentiometric sensor for analysis of Zn2+ in drug sample and different environmental samples”. International Journal of Environmental Analytical Chemistry, 101(14), 2035-2045, 2021.
  • [22] Isildak O, Özbek O. “Silver(I)-selective PVC membrane potentiometric sensor based on 5,10,15,20-tetra(4- pyridyl)-21H,23H-porphine and potentiometric applications”. Journal of Chemical Science, 132, 1-8, 2020.
  • [23] IUPAC. “Recommendations for nomenclature of ionselective electrodes”. Pure and Applied Chemistry, 48(1), 127-132, 1976.
  • [24] Kemer B, Ozdemir M. “Potentiometric utility of the new solid-state sensor based on crowned ionophore for the determination of K+”. Turkish Journal of Chemistry, 32(5), 521-528, 2008.
  • [25] Michalska A, Hulanicki A, Lewenstam A. “All-solid-state potentiometric sensors for potassium and sodium based on poly(pyrrole) solid contact”. Microchemical Journal, 57(1), 59-64, 1997.
  • [26] Tran TNT, Qui S, Chung H-J. “Potassium Ion Selective Electrode Using Polyaniline and Matrix-Supported IonSelective PVC Membrane. IEEE Sensors Journal, 18(22), 9081-9087, 2018.
  • [27] Vardar G, Altıkatoğlu M, Ortaç D, Cemek M, Isildak I. “Measuring calcium, potassium, and nitrate in plant nutrient solutions using ion-selective electrodes in hydroponic greenhouse of some vegetables”. Biotechnology and Applied Biochemistry, 62(5), 663-668, 2015.
Toplam 27 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Kimya Müh. / Tekstil Müh. / Gıda Müh.
Yazarlar

Ömer Işıldak Bu kişi benim

Oğuz Özbek

Meliha Burcu Gürdere Bu kişi benim

Alper Çetin

Yayımlanma Tarihi 31 Aralık 2021
Yayımlandığı Sayı Yıl 2021 Cilt: 27 Sayı: 7

Kaynak Göster

APA Işıldak, Ö., Özbek, O., Gürdere, M. B., Çetin, A. (2021). Development of PVC membrane potentiometric sensor for the determination of potassium ion and its applications. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, 27(7), 851-855.
AMA Işıldak Ö, Özbek O, Gürdere MB, Çetin A. Development of PVC membrane potentiometric sensor for the determination of potassium ion and its applications. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. Aralık 2021;27(7):851-855.
Chicago Işıldak, Ömer, Oğuz Özbek, Meliha Burcu Gürdere, ve Alper Çetin. “Development of PVC Membrane Potentiometric Sensor for the Determination of Potassium Ion and Its Applications”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 27, sy. 7 (Aralık 2021): 851-55.
EndNote Işıldak Ö, Özbek O, Gürdere MB, Çetin A (01 Aralık 2021) Development of PVC membrane potentiometric sensor for the determination of potassium ion and its applications. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 27 7 851–855.
IEEE Ö. Işıldak, O. Özbek, M. B. Gürdere, ve A. Çetin, “Development of PVC membrane potentiometric sensor for the determination of potassium ion and its applications”, Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, c. 27, sy. 7, ss. 851–855, 2021.
ISNAD Işıldak, Ömer vd. “Development of PVC Membrane Potentiometric Sensor for the Determination of Potassium Ion and Its Applications”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi 27/7 (Aralık 2021), 851-855.
JAMA Işıldak Ö, Özbek O, Gürdere MB, Çetin A. Development of PVC membrane potentiometric sensor for the determination of potassium ion and its applications. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. 2021;27:851–855.
MLA Işıldak, Ömer vd. “Development of PVC Membrane Potentiometric Sensor for the Determination of Potassium Ion and Its Applications”. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi, c. 27, sy. 7, 2021, ss. 851-5.
Vancouver Işıldak Ö, Özbek O, Gürdere MB, Çetin A. Development of PVC membrane potentiometric sensor for the determination of potassium ion and its applications. Pamukkale Üniversitesi Mühendislik Bilimleri Dergisi. 2021;27(7):851-5.





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