A New Al3+-Selective Fluorescent Probe Based on a Schiff-base Compound
International Journal of Applied Chemistry |
© 2021 by SSRG - IJAC Journal |
Volume 8 Issue 2 |
Year of Publication : 2021 |
Authors : Liang Yu, Huang Xiaojuan, Yang Mei, Zhang Jun |
How to Cite?
Liang Yu, Huang Xiaojuan, Yang Mei, Zhang Jun, "A New Al3+-Selective Fluorescent Probe Based on a Schiff-base Compound," SSRG International Journal of Applied Chemistry, vol. 8, no. 2, pp. 1-3, 2021. Crossref, https://doi.org/10.14445/23939133/IJAC-V8I2P101
Abstract:
A new Al3+-specific fluorescent probe P based on a Schiff-base compound was designed and synthesized, and its property was determined by fluorescent and UV-vis spectrometry. The results showed that the fluorescence intensity of probe P was significantly enhanced after the addition of Al3+ in ethanol. The binding ratio of probe P to Al3+ was 1:2 determined by the equimolar continuous method. The linear response range of probe P to Al3+ was 1.0×10-5-5.5×10-5M, and the detection limit of P for Al3+ was 3.3×10-6 M.
Keywords:
Al3+, Binding sites, Benzoyl hydrazide, Fluorescent probe, Schiff-base
References:
[1] Z. Li, J. Wang, L. W. Xiao, J. Y. Wang, and H. L. Yan, A dual-response fluorescent probe for Al3+ and Zn2+ in an aqueous medium based on benzothiazole and its application in living cells. Inorganica Chimica Acta, 516 (2021).
[2] J. L. Tang, C. Y. Li, Y. F. Li, X. Lu, and H. R. Qi, A highly sensitive and selective fluorescent probe for trivalent aluminum ion based on rhodamine derivative in living cells. Analytica chimica acta, 888 (2015) 155-161.
[3] N. Chattopadhyay, A. Mallick, and S. Sengupta, Photophysical studies of 7-hydroxy-4-methyl-8-(4′-methyl piperazine-1′-yl) methyl coumarin: A new fluorescent chemosensor for zinc and nickel ions in water. Journal of Photochemistry & Photobiology, A: Chemistry, 177(1) (2005) 55-60.
[4] C. I. David, N. Bhuvanesh, H. Jayaraj, A. Thamilselvan, D. Parimala devi, A. Abiram, J. Prabhu, and R. Nandhakumar, Experimental and Theoretical Studies on a Simple S-s-Bridged Dimeric Schiff Base: Selective Chromo-Fluorogenic Chemosensor for Nanomolar Detection of Fe2+ And Al3+ Ions and Its Varied Applications. ACS Omega, 5(6) (2020) 3055-3072.
[5] M. H. Kao, T. Y. Chen, Y. R. Cai, C. H. Hu, Y. W. Liu, Y. Jhong, and A. T. Wu, A turn-on schiff-base fluorescence sensor for Mg2+ ion and its practical application. Journal of Luminescence, 169 (2016) 156-160.
[6] C. H. Chen, D. J. Liao, C. F. Wan, and A. T. Wu, A turn-on and reversible schiff base fluorescence sensor for Al3+ ion. Analyst, 138(9) (2013) 2527-2530.
[7] P. C. Huang, H. Fang, J. J. Xiong, and F. Y. Wu, A highly selective turn-on fluorescent probe for Al3+ in aqueous solution based on quinoline Schiff-base. Methods and applications in fluorescence, 5(2) (2017) 024014.
[8] J. C. Qin, X. Y. Cheng, R. Fang, M. F. Wang, Z. Y. Yang, T. R. Li, and Y. Li. Two Schiff-base fluorescent sensors for selective sensing of aluminum(III): Experimental and computational studies. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 152 (2016) 352-357.
[9] C. W. Yu, L. Jian, Y. X. Ji, and J. Zhang, Al(III)-responsive “off-on” chemosensor based on rhodamine derivative and its application in cell imaging. Rsc Advances, 8(54) (2018) 31106-31112.
[10] W. T. Zhang, M. Yang, S. B. Wen, L. J. Li, and Y. X. Ji, Synthesis and characterization of an Al3+-selective fluorescent probe. SSRG International Journal of Applied Chemistry, 7(3) (2020) 1-3.
[11] S. W. Hua, C. Y. Li, and C. W. Yu, An Al3+-selective fluorescent probe based on benzoyl hydrazine derivative. International Journal of Current Research, 13(4) (2021) 15586-15588.
[12] D. Aydin, S. Dinckan, S. N. K. Elmas, T. Savran, F. N. Arslan, and I. Yilmaz, A novel phenolphthalein-based fluorescent sensor for Al3+ sensing in drinking water and herbal tea samples. Food Chemistry, 337 (2021).
[13] S. Soham, G. Sudeep, H. M. Najbul, R. Aiyagari, and D. Gopal, An aggregation-induced emission (AIE) active probe renders Al (III) sensing and tracking of subsequent interaction with DNA. Chemical communications (Cambridge, England), 50(80) (2014) 11833-11836.
[14] D. Maity, T. Govindaraju, Pyrrolidine constrained bipyridyl-dansyl click fluoroionophore as selective Al3+ sensor. Chemical communications (Cambridge, England), 46(25) (2010) 4499-4501.
[15] D. Maity, T. Govindaraju, Conformationally constrained (coumarin-triazolyl-bipyridyl) click fluoroionophore as a selective Al3+ sense. Inorganic chemistry, 49(16) (2010) 7229-7231.
[16] H. P. Peng, K. S. Shen, S. S. Mao, X. K. Shi, Y. L. Xu, A. S. Opeyemi, and H. L. Wu, A Highly Selective and Sensitive Fluorescent Turn-on Probe for Al3+ Based on Naphthalimide Schiff Base. Journal of Fluorescence, 27 (3) (2017) 1191-1200.
[17] J. Zhang, Q. Wu, B. L. Yu, and C. W. Yu, A Pyridine Contained Cu2+-Selective Probe Based on Naphthalimide Derivative. Sensors, 14(12) (2014) 24146-24155.
[18] C. W. Yu, Q. Y. Fu, J. Zhang, Synthesis and Characterization of an Mg2+-Selective Fluorescent Probe. Sensors, 14(7) (2014) 12560-12567.
[19] C. J. Liu, Z. Y. Yang, L. Fan, X. L. Jin, J. M. An, X. Y. Cheng, and B. D. Wang, Novel optical selective chromone Schiff base chemosensor for Al3+ ion. Journal of Luminescence, 158 (2015) 172-175.
[20] J. C. Qin, T. R. Li, B. D. Wang, Z. Y. Yang, and L. Fan. A sensor for selective detection of Al3+ based on quinoline Schiff-base in aqueous media. Synthetic Metals, 195 (2014) 141-146.
[21] X. Y. Wen, Z. F. Fan, Linear Schiff-base fluorescence probe with aggregation-induced emission characteristics for Al3+ detection and its application in live-cell imaging. Analytica Chimica Acta, 945 (2016) 75-84.
[22] Y. Q. Tang, J. G. Sun and B. Z. Yin, A dual-response fluorescent probe for Zn2+ and Al3+ detection in aqueous media: pH-dependent selectivity and practical application. Analytica Chimica Acta, 942 (2016) 104-111.
[23] D. Aydin and M. K. Alici, Phenolphthalein Conjugated Schiff Base as a Dual Emissive Fluorogenic Probe for the Recognition Aluminum (III) and Zinc (II) Ions. Journal of fluorescence, 31(3) (2021) 797-805.
[24] Y. L. Mu, C. J. Zhang, Z. L. Gao, X. Zhang, Q. Lu, J. S. Yao, and S. Xing. A highly selective colorimetric, absorption and fluorescence probe for Al3+ detection based on a new Schiff base compound. Synthetic Metals, 262 (2020).
[25] N. Fan, Synthesis and characterization of novel azacrown ethers and metal complexes. Qufu Normal University, 2004. (In Chinese)
[26] M. L. Xian, C. Y. Li, and J. Zhang, Coordination Property of Three Benzoylhydrazine Based Schiff-base Compounds: A Comparative Studied with UV-vis Method. SSRG International Journal of Applied Chemistry, 8 (1) (2021) 30-33.