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Mendeleev Communications, 2019, Volume 29, Issue 2, Pages 155–157
DOI: https://doi.org/10.1016/j.mencom.2019.03.012 (Mi mendc1454) 		 
This article is cited in 28 scientific papers (total in 28 papers)

Communications

Chemoselective detection of Ag+ in purely aqueous solution using fluorescence ‘turn-on’ probe based on crown-containing 4-methoxy-1,8-naphthalimide

P. A. Panchenkoab, A. S. Polyakovaa, Yu. V. Fedorovb, O. A. Fedorovaab

a D.Mendeleev University of Chemical Technology of Russia, Moscow, Russian Federation
b A.N. Nesmeyanov Institute of Organoelement Compounds of Russian Academy of Sciences, Moscow, Russian Federation
Full-text PDF (514 kB) Citations (28)
DOI: https://doi.org/10.1016/j.mencom.2019.03.012
Abstract: A novel derivative of 4-methoxy-1,8-naphthalimide bearing N-phenylazadithia-15-crown-5 ether receptor has been demonstrated as the selective and sensitive fluorescent probe for the detection of silver(I) ions in purely aqueous solution at neutral pH.
Document Type: Article
Language: English
Supplementary materials:
Supplementary_data_1.pdf (456.5 Kb)


Citation: P. A. Panchenko, A. S. Polyakova, Yu. V. Fedorov, O. A. Fedorova, “Chemoselective detection of Ag+ in purely aqueous solution using fluorescence ‘turn-on’ probe based on crown-containing 4-methoxy-1,8-naphthalimide”, Mendeleev Commun., 29:2 (2019), 155–157
Linking options:
  • https://www.mathnet.ru/eng/mendc1454
  • https://www.mathnet.ru/eng/mendc/v29/i2/p155
    • This publication is cited in the following 28 articles:
    1. A. V. Alexandrova, P. A. Panchenko, S. L. Selektor, “Preorganization of Langmuir Monolayers of Crown-Substituted 1,8-Naphthalimide to Enhance the Efficiency of Silver Ion Binding at Interfaces”, Prot Met Phys Chem Surf, 60:2 (2024), 131  crossref
    2. P. A. Panchenko, A. S. Polyakova, M. A. Ustimova, A. V. Efremenko, A. V. Feofanov, Yu. V. Fedorov, O. A. Fedorova, “Ratiometric fluorescent chemosensor for mercury(ii) cations in aqueous solution based on the crown-containing bis(chromophoric) 1,8-naphthalimide—styrylpyridine system”, Russ Chem Bull, 73:10 (2024), 2921  crossref
    3. M. A. Pavlova, P. A. Panchenko, M. N. Vlasova, O. A. Fedorova, “Fluorescent sensor for Zn2+ cations based on a 4-methoxy-1,8-naphthalimide derivative containing a dipicolylamine receptor fragment”, Russ Chem Bull, 72:9 (2023), 2154  crossref
    4. Gabriel Gauci, David C. Magri, “Solvent-polarity reconfigurable fluorescent 4-piperazino-N-aryl-1,8-naphthalimide crown ether logic gates”, RSC Adv., 12:54 (2022), 35270  crossref
    5. Pavel Panchenko, Anastasija Efremenko, Anna Polyakova, Alexey Feofanov, Maria Ustimova, Yuri Fedorov, Olga Fedorova, “Fluorescent RET-Based Chemosensor Bearing 1,8-Naphthalimide and Styrylpyridine Chromophores for Ratiometric Detection of Hg2+ and Its Bio-Application”, Biosensors, 12:9 (2022), 770  crossref
    6. Nisha Jain, Navneet Kaur, “A comprehensive compendium of literature of 1,8-Naphthalimide based chemosensors from 2017 to 2021”, Coordination Chemistry Reviews, 459 (2022), 214454  crossref
    7. Pawan Thapa, Nicholas K. Byrnes, Alena A. Denisenko, James X. Mao, Austin D. McDonald, Charleston A. Newhouse, Thanh T. Vuong, Katherine Woodruff, Kwangho Nam, David R. Nygren, Benjamin J. P. Jones, Frank W. Foss, “Demonstration of Selective Single-Barium Ion Detection with Dry Diazacrown Ether Naphthalimide Turn-on Chemosensors”, ACS Sens., 6:1 (2021), 192  crossref
    8. P. A. Panchenko, A. S. Polyakova, Yu. V. Fedorov, O. A. Fedorova, “Fluorescent chemosensor for mercury(II) cations in an aqueous solution based on 4-acetylamino-1, 8-naphthalimide derivative containing the N-phenylazadithia-15-crown-5-ether receptor”, Russ Chem Bull, 70:10 (2021), 1939  crossref
    9. Pavel Panchenko, Anastasija Efremenko, Alexey Feofanov, Mariya Ustimova, Yuri Fedorov, Olga Fedorova, “Ratiometric Detection of Mercury (II) Ions in Living Cells Using Fluorescent Probe Based on Bis(styryl) Dye and Azadithia-15-Crown-5 Ether Receptor”, Sensors, 21:2 (2021), 470  crossref
    10. Xiang Zhang, Yu Fan, Tian-Guang Zhan, Qiao-Yan Qi, Xin Zhao, “A thiophene-derived hexaazatriphenylene (HAT) fluorescent sensor for the selective detection of Ag+ ion”, Tetrahedron Letters, 68 (2021), 152911  crossref
    11. Moumi Mandal, Dibyendu Sain, Md. Majharul Islam, Dipanjan Banik, Muthaimanoj Periyasamy, Sukhendu Mandal, Ajit Kumar Mahapatra, Arik Kar, “A ratiometric triazine-based colorimetric and fluorometric sensor for the recognition of Zn2+ ions and its application in human lung cancer cells”, Anal. Methods, 13:35 (2021), 3922  crossref
    12. Manon Isaac, Sergey A. Denisov, Nathan D. McClenaghan, Olivier Sénèque, “Bioinspired Luminescent Europium-Based Probe Capable of Discrimination between Ag+ and Cu+”, Inorg. Chem., 60:14 (2021), 10791  crossref
    13. Dong Yang, Bin Zhu, Dongmei Zhang, Xia Zhang, Wenbo Liu, Jing Xue, Yaoyi Wei, Caifeng Bi, Yuhua Fan, “A Bifunctional “Off‐On” Fluorescence Probe Based on Naphthalene for the Detection of Ag+ and Al3+ and Its Application in Practical Water Samples, as a Logic gate and as Test Paper”, ChemistrySelect, 6:33 (2021), 8830  crossref
    14. A. D. Zubenko, B. V. Egorova, L. S. Zamurueva, S. N. Kalmykov, O. A. Fedorova, “Synthesis of benzoaza-15(18)-crown-5(6) ethers and study of their complexes with lead(II)”, Mendeleev Commun., 31:2 (2021), 194–196  mathnet  crossref
    15. P. A. Panchenko, Yu. V. Fedorov, A. S. Polyakova, O. A. Fedorova, “Fluorimetric detection of Ag+ cations in aqueous solutions using a polyvinyl chloride sensor film doped with crown-containing 1,8-naphthalimide”, Mendeleev Commun., 31:4 (2021), 517–519  mathnet  crossref
    16. M. A. Zakharko, P. A. Panchenko, D. P. Zarezin, V. G. Nenajdenko, D. A. Pritmov, M. A. Grin, A. F. Mironov, O. A. Fedorova, “Conjugates of 3,4-dimethoxy-4-styrylnaphthalimide and bacteriochlorin for theranostics in photodynamic therapy”, Russ Chem Bull, 69:6 (2020), 1169  crossref
    17. A. S. Malysheva, A. V. Shaferov, A. D. Averin, O. K. Grigorova, O. A. Maloshitskaya, V. A. Roznyatovsky, I. P. Beletskaya, “Synthesis of optically active 2,7-disubstituted naphthalene derivatives and evaluation of their enantioselective recognition ability”, Russ Chem Bull, 69:7 (2020), 1355  crossref
    18. Andreas Diacono, Marie Claire Aquilina, Andrej Calleja, Godfrey Agius, Gabriel Gauci, Konrad Szaciłowski, David C. Magri, “Enhanced ion binding by the benzocrown receptor and a carbonyl of the aminonaphthalimide fluorophore in water-soluble logic gates”, Org. Biomol. Chem., 18:25 (2020), 4773  crossref
    19. Na-Na Li, Cai-Feng Bi, Xia Zhang, Cun-Gang Xu, Chuan-Bin Fan, Wei-Song Gao, Zi-Ao Zong, Shan-Shan Zuo, Chuan-Feng Niu, Yu-Hua Fan, “A bifunctional probe based on naphthalene derivative for absorbance-ratiometic detection of Ag+ and fluorescence “turn-on” sensing of Zn2+ and its practical application in water samples, walnut and living cells”, Journal of Photochemistry and Photobiology A: Chemistry, 390 (2020), 112299  crossref
    20. Stanislava Yordanova-Tomova, Diana Cheshmedzhieva, Stanimir Stoyanov, Todor Dudev, Ivo Grabchev, “Synthesis, Photophysical Characterization, and Sensor Activity of New 1,8-Naphthalimide Derivatives”, Sensors, 20:14 (2020), 3892  crossref
    Citing articles in Google Scholar: Russian citations, English citations
    Related articles in Google Scholar: Russian articles, English articles
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