Design and preparation of Magnesium (II) selective electrode based on novel synthetic ligand and optimization by D-optimal method
Subject Areas : Polymer
Ahmad
Adeli
1
(Department of Chemistry, Mashhad Branch, Islamic Azad University, Mashhad, Iran)
Razieh
Sanavi Khoshnood
2
(Department of Chemistry, Mashhad Branch, Islamic Azad University, Mashhad, Iran)
S.Ali
Beyramabadi
3
(Department of Chemistry, Mashhad Branch, Islamic Azad University, Mashhad, Iran)
Mehdi
Pordel
4
(Department of Chemistry, Mashhad Branch, Islamic Azad University, Mashhad, Iran)
Ali
Morsalia
5
(Department of Chemistry, Mashhad Branch, Islamic Azad University, Mashhad, Iran)
Keywords: Experimental design, Potentiometry, Carbon paste electrode (CPE), Mixture Design, Mg2+ ion, D-optimal. ,
Abstract :
[1]. J. Wang, X. Wang, H. Tang, S. He, Z. Gao, R. Niu, Y. Zheng, S. Han, Sens.
Actuators, B., 272, 146 (2018).
[2]. V. K. Gupta, S. Chandra and R. Mangla, Sens. Actuators, B., 86, 235 (2002).
[3]. W. Grzebisz, Journal of Elementology, 16 (2011).
[4]. J. Willis, Anal. Chem., 33, 556 (1961).
[5]. J. Willis, Spectrochim. Acta., 16, 273 (1960).
[6]. T. Ramakrishna, J. Robinson, P. W. West, Anal. Chim. Acta, 36, 57 (1966).
[7]. X. Gao, H. Huang, S. Niu, H. Ye, Z. Lin, B. Qiu, G. Chen, Anal. Methods, 4, 947
(2012).
[8]. O. A. Farghaly, Talanta, 63, 497 (2004).
[9]. J. W. Ferguson, J. Richard, J. O'laughlin, C. Banks, Anal. Chem., 36, 796 (1964).
[10]. W. D. Basson, J. F. Van Staden, Fresenius' Zeitschrift für Analytische Chemie, 302,
370 (1980).
[11]. H. Kagenow, A. Jensen, Anal. Chim. Acta, 145, 125 (1983).
[12]. H. Medetalibeyoğlu, M. Beytur, S. Manap, C. Karaman, F. Kardaş, O. Akyıldırım, G.
Kotan, H. Yüksek, N. Atar, M. L. Yola, ECS J. Solid State Sci. Technol., 9, 101006 (2020).
[13]. M. V. Rouilly, M. Badertscher, E. Pretsch, G. Suter, W. Simon, Anal. Chem., 60,
2013 (1988).
[14]. A. Grekovich, Sov. Electrochem., 26, 426 (1990).
[15]. B. Altura, T. Shirey, C. Young, K. DellOrfano, J. Hiti, R. Welsh, Q. Yeh, R. Barbour,
and B. Altura, Scand. J. Clin. Lab. Invest., 54, 21 (1994).
[16]. C. P. Böke, O. Karaman, H. Medetalibeyoglu, C. Karaman, N. Atar, M. L. Yola,
Microchem. J., 157, 105012 (2020).
[17]. C. Karaman, O. Karaman, N. Atar, M. L. Yola, Microchim. Acta, 188, 1 (2021).
[18]. S. Ramezani, A. Nakhaei, Inorg. Nano-Met. Chem., 51, 560 (2021).
[19]. A. Nakhaei, S. Ramezani, Iran. J. Chem. Chem. Eng. Research, 38 (4), 79 (2019).
[20]. G. I. Mohammed, A. L. Saber, H. A. El-Ghamry, J. T. Althakafy, H. Alessa, Arabian
J. Chem., 14, 103210 (2021).
[21]. B. Hasani, A. Zamani, M. K. Moftakhar, M. Mostafavi, M. R. Yaftian, M.
Ghorbanloo, J. Anal. Chem., 73 (2018).
[22]. F. Ghasedian, H. Zamani, F. Joz-Yarmohammadi, S. Beyramabadi, M. Abedi, Russ. J.
Appl. Chem., 89, 2001 (2016).
[23]. A. Dehnavi, H. A. Zamani, M. Shariyati, M. R. Abedi, S. Meghdadi, Int. J.
Electrochem. Sci, 9, 8273 (2014).
[24]. A. Ensafi, H. Karimi-Maleh, S. Mallakpour, Colloids Surf., B, 104, 186 (2013).
[25]. T. Ikeda, H. Hamada, K. Miki, M. Senda, Agric. Biol. Chem., 49, 541 (1985).
[26]. K. M. Millan, A. Saraullo, S. R. Mikkelsen, Anal. Chem., 66, 2943 (1994).
[27]. H. Liu, P. He, Z. Li, C. Sun, L. Shi, Y. Liu, G. Zhu, J. Li, Electrochem. Commun., 7,
1357 (2005).
[28]. J. Wang, A. Walcarius, J. Electroanal. Chem., 407, 183 (1996).
[29]. S. B. Hočevar, I. Švancara, K. Vytřas, B. Ogorevc, Electrochim. Acta, 51, 706 (2005).
[30]. N. S. Lawrence, R. P. Deo, J. Wang, Talanta, 63, 443 (2004).
[31]. A. Shirdel, H. A. Zamani, F. Joz-Yarmohammadi, S. A. Beyramabadi, M. R. Abedi,
J. Inclusion Phenom. Macrocyclic Chem., 86, 351 (2016).
[32]. N. Zaheiritousi, H. A. Zamani, M. R. Abedi, S. Meghdadi, Int. J. Electrochem. Sci,
12, 2647 (2017).
[33]. A. H. Fakhrabad, R. S. Khoshnood, M. Ebrahimi, M. R. Abedi, J. Anal. Chem., 75,
951 (2020).
[34]. H. Karimi-Maleh, A. L. Sanati, V. K. Gupta, M. Yoosefian, M. Asif, A. Bahari, Sens.
Actuators, B., 204, 647 (2014).
[35]. H. Karimi-Maleh, M. Keyvanfard, K. Alizad, M. Fouladgar, H. Beitollahi, A.
Mokhtari, F. Gholami-Orimi, Int. J. Electrochem. Sci, 6, 6141 (2011).
[36]. R. G. Brereton, Chemometrics: data analysis for the laboratory and chemical plant,
John Wiley & Sons (2003).
[37]. K. Valkó, Separation methods in drug synthesis and purification. 1st edition, Elsevier
(2000).
[38]. L. Eriksson, Design of experiments: principles and applications: MKS Umetrics AB
(2008).
[39]. M. Nasrabadi, S. A. Beyramabadi, A. Morsali, International Journal of Biological
Macromolecules, 147, 534 (2020).
[40]. F. Faridbod, M. Ganjali, R. Dinarvand, P. Norouzi, S. Riahi, Sensors, 8, 1645 (2008).
[41]. C. R. T. Tarley, G. Silveira, W. N. L. dos Santos, G. D. Matos, E. G. P. da Silva, M.
A. Bezerra, M. Miró, S. L. C. Ferreira, Microchemical Journal, 92, 58 (2009).
[42]. J. Jacyna, M. Kordalewska, M. J. Markuszewski, Journal of Pharmaceutical and
Biomedical Analysis, 164, 598 (2019).
[43]. M. Javanbakht, M. R. Ganjali, P. Norouzi, A. Badiei, A. Hasheminasab, M. Abdouss,
Electroanalysis: An International Journal Devoted to Fundamental and Practical Aspects of
Electroanalysis, 19, 1307 (2007).
[44]. S. Sharif Manesh, M. Masrournia, A. Beyram Abady, Anal. Bioanal. Electrochem.,
12, 180 (2020).
[45]. S. Chandra, K. Sharma, A. Kumar, J. Chem., 2013, 189464 (2013).
[46]. M. S. J. T. SELVI (2014).
[47]. Z. Mosayebzadeh, R. Ansari, M. Arvand, J. Iran. Chem. Soc., 11, 447 (2014).
[48]. P. Kumar, Y.-B. Shim, J. Electroanal. Chem., 661, 25 (2011).
[49]. H. A. Zamani, A. Nezhadali, M. Saghravanian, Anal. Lett., 41, 2727 (2008).
