Year 2020,
Volume: 9 Issue: 3, 51 - 56, 25.12.2020
Ömer Işıldak
,
Alper Çetin
References
- Aghaie, M., Giahi, M., Aghaie, H., Atryan, A., 2009. Silver (I)-selective membrane potentiometric sensor based on two recently synthesized ionophores containing calix[4]arene. Russian Journal of Electrochemistry, 45(7): 804-809.
- Ardakani, M. M., Dehghani, H., Jalayer, M., Zare, H. R., 2004. Potentiometric determination of silver (I) by selective membrane electrode based on derivative of porphyrin. Analytical Sciences, 20(12): 1667-1672.
- Buck, R. P., Lindner, E., 1994. Recommendations for nomenclature of ionselective electrodes (IUPAC Recommendations 1994). Pure and Applied Chemistry, 66(12): 2527-2536.
- Chen, L., Ju, H., Zeng, X., He, X., Zhang, Z., 2001. Silver ion-selective electrodes based on novel containing benzothiazolyl calix [4] arene. Analytica Chimica Acta, 437(2): 191-197.
- Cremer, M., 1906. Origin of electromotor properties of tissues, and instructional contribution for polyphasic electrolyte chains. Z. Für Biol, 47: 562-608.
- Demirel, A., Doğan, A., Akkuş, G., Yılmaz, M., Kılıç, E., 2006. Silver (I)‐Selective PVC Membrane Potentiometric Sensor Based on a Recently Synthesized Calix[4]arene. Electroanalysis: An International Journal Devoted to Fundamental and Practical Aspects of Electroanalysis, 18(10): 1019-1027.
- Isildak, Ö., Özbek, O., Gürdere, M. B., 2020a. Development of chromium (III)-selective potentiometric sensor by using synthesized pyrazole derivative as an ionophore in PVC matrix and its applications. Journal of Analysis and Testing, 4(4): 273-280.
- Isildak, Ö., Özbek, O., Yigit, K. M., 2020b. A bromide-selective PVC membrane potentiometric sensor. Bulgarian Chemical Communications, 52(4): 448-452.
- Isildak, Ö., Özbek, O., 2020. 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 Sciences, 132(1): 29.
- Işıldak, Ö., Deligönül, N., Özbek, O., 2019. A novel silver (I)-selective PVC membrane sensor and its potentiometric applications. Turkish Journal of Chemistry, 43(4): 1149-1158.
- Isildak, I., Yolcu, M., Isildak, O., Demirel, N., Topal, G., Hosgoren, H. 2004. All-solid-state PVC membrane Ag+-selective electrodes based on diaza-18-crown-6 compounds. Microchimica Acta, 144(1-3): 177-181.
- Karimi, M. A., Mohammadi, S. Z., Mohadesi, A., Hatefi-Mehrjardi, A., Mazloum-Ardakani, M., Korani, L. S., Kabir, A. A., 2011. Determination of silver (I) by flame atomic absorption spectrometry after separation/preconcentration using modified magnetite nanoparticles. Scientia Iranica, 18(3): 790-796.
- Liang, R., Zhang, R., Qin, W., 2009. Potentiometric sensor based on molecularly imprinted polymer for determination of melamine in milk. Sensors and Actuators B: Chemical, 141(2): 544-550.
- Mahajan, R. K., Kumar, M., Sharma, V., Kaur, I., 2001. Silver (I) ion-selective membrane based on Schiff base–p-tert-butylcalix [4] arene. Analyst, 126(4): 505-507.
- Mahajan, R. K., Kaur, I., Sharma, V., Kumar, M., 2002. Sensor for silver (I) ion based on Schiff-base-p-tertbutylcalix [4] arene. Sensors, 2(10): 417-423.
- Malinowska, E., Brzózka, Z., Kasiura, K., Egberink, R. J., Reinhoudt, D. N. 1994. Silver selective electrodes based on thioether functionalized calix[4]arenes as ionophores. Analytica Chimica Acta, 298(2): 245-251.
- Masrournia, M., Zamani, H., Mohammedzadeh, H.,Seyedi, S. M., Ganjali, M. R., Eshghi, H., 2009. A silver(I) PVC-membrane sensor based on synthesized dilaktam crown ether. Journal of the Chilean Chemical Society, 54(1): 63-67.
- Mazloum, M., Salavati Niassary, M., Mirhoseini Chahooki, S. H., Amini, M. K., 2002. Silver‐Selective Coated‐Wire Electrode Based on Resorc [4] arene Neutral Carrier. Electroanalysis: An International Journal Devoted to Fundamental and Practical Aspects of Electroanalysis, 14(5): 376-381.
- Mihali, C., Vaum, N. 2012. Use of plasticizers for electrochemical sensors. Recent Advances in Plasticizers, 125.
- Mijnendonckx, K., Leys, N., Mahillon, J., Silver, S., Van Houdt, R., 2013. Antimicrobial silver: uses, toxicity and potential for resistance. Biometals, 26(4): 609-621.
- Özbek, O., Usta, N. C., Gürdere, M. B., Aslan, O., Budak, Y., Ceylan, M., 2017. 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.
- Özbek, O., Isildak, Ö., Berkel, C., 2020. The use of porphyrins in potentiometric sensors as ionophores. Journal of Inclusion Phenomena and Macrocyclic Chemistry, 98: 1-9.
- Purcell, T. W., Peters, J. J., 1998. Sources of silver in the environment. Environmental Toxicology and Chemistry: An International Journal, 17(4): 539-546.
- Sejmanović, D. M., Petković, B. B., Budimir, M. V., Sovilj, S. P., Jovanović, V. M., 2011. Characterization of a Silver Modified PVCAc Electrode and Its Application as a Ag (I)‐Selective Potentiometric Sensor. Electroanalysis, 23(8): 1849-1855.
- Soleimani, M., Afshar, M. G. 2013. Potentiometric sensor for trace level analysis of copper based on carbon paste electrode modified with multi-walled carbon nanotubes. International Journal of Electrochemical Science, 8: 8719-29.
- Topcu, C., Lacin, G., Yilmaz, V., Coldur, F., Caglar, B., Cubuk, O., Isildak, I., 2018. Electrochemical determination of copper (II) in water samples using a novel ion-selective electrode based on a graphite oxide–imprinted polymer composite. Analytical Letters, 51(12): 1890-1910.
A Mini Review on Silver(I)-Selective Potentiometric Electrodes and Its Applications
Year 2020,
Volume: 9 Issue: 3, 51 - 56, 25.12.2020
Ömer Işıldak
,
Alper Çetin
Abstract
Ion-selective electrodes (ISEs) are preferred by analytical chemist in the determination of various ions in routine laboratory analysis. Potentiometric ion-selective electrodes have great advantages and different properties. Silver is an important element due to its wide use in the industry. The widespread use of silver in every field makes its determination important. Today, some analytical methods have been proposed for the determination of silver(I) ions in various samples. However, potentiometric methods have an important place in silver determination due to their versatile advantages. In this mini review, silver(I)-selective electrodes in the literature and their properties were investigated.
References
- Aghaie, M., Giahi, M., Aghaie, H., Atryan, A., 2009. Silver (I)-selective membrane potentiometric sensor based on two recently synthesized ionophores containing calix[4]arene. Russian Journal of Electrochemistry, 45(7): 804-809.
- Ardakani, M. M., Dehghani, H., Jalayer, M., Zare, H. R., 2004. Potentiometric determination of silver (I) by selective membrane electrode based on derivative of porphyrin. Analytical Sciences, 20(12): 1667-1672.
- Buck, R. P., Lindner, E., 1994. Recommendations for nomenclature of ionselective electrodes (IUPAC Recommendations 1994). Pure and Applied Chemistry, 66(12): 2527-2536.
- Chen, L., Ju, H., Zeng, X., He, X., Zhang, Z., 2001. Silver ion-selective electrodes based on novel containing benzothiazolyl calix [4] arene. Analytica Chimica Acta, 437(2): 191-197.
- Cremer, M., 1906. Origin of electromotor properties of tissues, and instructional contribution for polyphasic electrolyte chains. Z. Für Biol, 47: 562-608.
- Demirel, A., Doğan, A., Akkuş, G., Yılmaz, M., Kılıç, E., 2006. Silver (I)‐Selective PVC Membrane Potentiometric Sensor Based on a Recently Synthesized Calix[4]arene. Electroanalysis: An International Journal Devoted to Fundamental and Practical Aspects of Electroanalysis, 18(10): 1019-1027.
- Isildak, Ö., Özbek, O., Gürdere, M. B., 2020a. Development of chromium (III)-selective potentiometric sensor by using synthesized pyrazole derivative as an ionophore in PVC matrix and its applications. Journal of Analysis and Testing, 4(4): 273-280.
- Isildak, Ö., Özbek, O., Yigit, K. M., 2020b. A bromide-selective PVC membrane potentiometric sensor. Bulgarian Chemical Communications, 52(4): 448-452.
- Isildak, Ö., Özbek, O., 2020. 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 Sciences, 132(1): 29.
- Işıldak, Ö., Deligönül, N., Özbek, O., 2019. A novel silver (I)-selective PVC membrane sensor and its potentiometric applications. Turkish Journal of Chemistry, 43(4): 1149-1158.
- Isildak, I., Yolcu, M., Isildak, O., Demirel, N., Topal, G., Hosgoren, H. 2004. All-solid-state PVC membrane Ag+-selective electrodes based on diaza-18-crown-6 compounds. Microchimica Acta, 144(1-3): 177-181.
- Karimi, M. A., Mohammadi, S. Z., Mohadesi, A., Hatefi-Mehrjardi, A., Mazloum-Ardakani, M., Korani, L. S., Kabir, A. A., 2011. Determination of silver (I) by flame atomic absorption spectrometry after separation/preconcentration using modified magnetite nanoparticles. Scientia Iranica, 18(3): 790-796.
- Liang, R., Zhang, R., Qin, W., 2009. Potentiometric sensor based on molecularly imprinted polymer for determination of melamine in milk. Sensors and Actuators B: Chemical, 141(2): 544-550.
- Mahajan, R. K., Kumar, M., Sharma, V., Kaur, I., 2001. Silver (I) ion-selective membrane based on Schiff base–p-tert-butylcalix [4] arene. Analyst, 126(4): 505-507.
- Mahajan, R. K., Kaur, I., Sharma, V., Kumar, M., 2002. Sensor for silver (I) ion based on Schiff-base-p-tertbutylcalix [4] arene. Sensors, 2(10): 417-423.
- Malinowska, E., Brzózka, Z., Kasiura, K., Egberink, R. J., Reinhoudt, D. N. 1994. Silver selective electrodes based on thioether functionalized calix[4]arenes as ionophores. Analytica Chimica Acta, 298(2): 245-251.
- Masrournia, M., Zamani, H., Mohammedzadeh, H.,Seyedi, S. M., Ganjali, M. R., Eshghi, H., 2009. A silver(I) PVC-membrane sensor based on synthesized dilaktam crown ether. Journal of the Chilean Chemical Society, 54(1): 63-67.
- Mazloum, M., Salavati Niassary, M., Mirhoseini Chahooki, S. H., Amini, M. K., 2002. Silver‐Selective Coated‐Wire Electrode Based on Resorc [4] arene Neutral Carrier. Electroanalysis: An International Journal Devoted to Fundamental and Practical Aspects of Electroanalysis, 14(5): 376-381.
- Mihali, C., Vaum, N. 2012. Use of plasticizers for electrochemical sensors. Recent Advances in Plasticizers, 125.
- Mijnendonckx, K., Leys, N., Mahillon, J., Silver, S., Van Houdt, R., 2013. Antimicrobial silver: uses, toxicity and potential for resistance. Biometals, 26(4): 609-621.
- Özbek, O., Usta, N. C., Gürdere, M. B., Aslan, O., Budak, Y., Ceylan, M., 2017. 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.
- Özbek, O., Isildak, Ö., Berkel, C., 2020. The use of porphyrins in potentiometric sensors as ionophores. Journal of Inclusion Phenomena and Macrocyclic Chemistry, 98: 1-9.
- Purcell, T. W., Peters, J. J., 1998. Sources of silver in the environment. Environmental Toxicology and Chemistry: An International Journal, 17(4): 539-546.
- Sejmanović, D. M., Petković, B. B., Budimir, M. V., Sovilj, S. P., Jovanović, V. M., 2011. Characterization of a Silver Modified PVCAc Electrode and Its Application as a Ag (I)‐Selective Potentiometric Sensor. Electroanalysis, 23(8): 1849-1855.
- Soleimani, M., Afshar, M. G. 2013. Potentiometric sensor for trace level analysis of copper based on carbon paste electrode modified with multi-walled carbon nanotubes. International Journal of Electrochemical Science, 8: 8719-29.
- Topcu, C., Lacin, G., Yilmaz, V., Coldur, F., Caglar, B., Cubuk, O., Isildak, I., 2018. Electrochemical determination of copper (II) in water samples using a novel ion-selective electrode based on a graphite oxide–imprinted polymer composite. Analytical Letters, 51(12): 1890-1910.