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Russian Chemical Reviews, 2020, Volume 89, Issue 7, Pages 713–749
DOI: https://doi.org/10.1070/RCR4909 (Mi rcr4300) 		 
This article is cited in 28 scientific papers (total in 28 papers)

Sensory effects of fluorescent organic dyes

Valerii F. Traven, Dmitrii A. Cheptsov

D. Mendeleev University of Chemical Technology of Russia, Moscow
English full-text Citations (28) Russian version article
DOI: https://doi.org/10.1070/RCR4909
Abstract: Organic dyes are very promising substrates for modern sensing technologies. Their utility is based on the “push-pull” polarization of a p-electron system, as well as their polyfunctionality. These properties make organic dyes capable of fluorescent sensory response to many analytes and provide different mechanisms of both fluorescence increase and fluorescence quenching. Specific organic reactions and structural transformations of fluorescent organic dyes are under consideration in this review. The data confirming the structures of the products of the related analytical reactions are discussed in more detail. Knowledge of the transformations that fluorescent organic dyes undergo in sensory effects can contribute to successful design of specific probes for novel sensory technologies. The bibliography includes 365 references.
Keywords: dyes, analytes, organic reactions, sensory effects, fluorescence, chemosensors, chemodosimeters.
Funding agency Grant number
Russian Science Foundation 17-13-01302
Received: 11.07.2019
Bibliographic databases:
Document Type: Article
Language: English
Original paper language: English
Citation: Valerii F. Traven, Dmitrii A. Cheptsov, “Sensory effects of fluorescent organic dyes”, Russian Chem. Reviews, 89:7 (2020), 713–749
Citation in format AMSBIB
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\by Valerii~F.~Traven, Dmitrii~A.~Cheptsov
\paper Sensory effects of fluorescent organic dyes
\jour Russian Chem. Reviews
\yr 2020
\vol 89
\issue 7
\pages 713--749
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\crossref{https://doi.org/10.1070/RCR4909}
\adsnasa{https://adsabs.harvard.edu/cgi-bin/bib_query?2020RuCRv..89..713T}
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\scopus{https://www.scopus.com/record/display.url?origin=inward&eid=2-s2.0-85088514397}
Linking options:
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  • https://doi.org/10.1070/RCR4909
  • https://www.mathnet.ru/eng/rcr/v89/i7/p713
    • This publication is cited in the following 28 articles:
    1. Lei Wang, Weiting Ma, Shuheng Zhang, Mengke He, Ping Song, Hongying Wang, Xianxiao Song, Botian Li, Molecules, 30:2 (2025), 375  crossref
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    3. Weitao Zhang, Jinzhen Yao, Jing Sun, Yaru Gong, Xiao Li, Zhongmin Su, Journal of Molecular Structure, 1301 (2024), 137377  crossref
    4. Xinyi Shen, Kai Lu, Yangjing Ren, Zejian He, Yulong Chen, Mi Zhou, ACS Appl. Polym. Mater., 6:10 (2024), 6121  crossref
    5. Wenbo Lv, Yafang Song, Zunli Mo, Talanta, 2024, 127105  crossref
    6. Pavel A. Panchenko, Anastasija V. Efremenko, Anna S. Polyakova, Alexey V. Feofanov, Maria A. Ustimova, Yuri V. Fedorov, Olga A. Fedorova, Chemistry — An Asian Journal, 2024  crossref
    7. Mozhgan Hosseinnezhad, Sohrab Nasiri, Venkatramaiah Nutalapati, Kamaladin Gharanjig, Amirmasoud Arabi, J. Electron. Mater., 2024  crossref
    8. P. A. Panchenko, A. S. Polyakova, M. A. Ustimova, A. V. Efremenko, A. V. Feofanov, Yu. V. Fedorov, O. A. Fedorova, Russ Chem Bull, 73:10 (2024), 2921  crossref
    9. Xu Xu, Muyao Ma, Tongxin Sun, Xin Zhao, Lei Zhang, Biosensors, 13:4 (2023), 435  crossref
    10. S. Borji, M. Vahedpour, Journal of Photochemistry and Photobiology A: Chemistry, 436 (2023), 114363  crossref
    11. Shuangying Li, Qingxiang Zhou, Zhi Li, Menghua Liu, Yanhui Li, Chunmao Chen, Journal of Cleaner Production, 402 (2023), 136827  crossref
    12. L. I. Belen’kii, G. A. Gazieva, Yu. B. Evdokimenkova, N. O. Soboleva, Advances in Heterocyclic Chemistry, 139, 2023, 201  crossref
    13. Wenfang Jin, Baolei Fan, Xinrui Qin, Yuxia Liu, Chunqi Qian, Bo Tang, Tony D. James, Guang Chen, Coordination Chemistry Reviews, 480 (2023), 214999  crossref
    14. Fen Wang, Lanting Wang, Gang Wang, Cheng Qian, Yingxia Zhou, Xin Zheng, Chinese Journal of Organic Chemistry, 43:12 (2023), 4147  crossref
    15. B. Neto, J. Correa, J. Spencer, Chem.-Eur. J., 28:4 (2022)  crossref  isi
    16. A. N. Chukhlantseva, M. V. Dmitriev, O. A. Maiorova, E. V. Shklyaeva, G. G. Abashev, Mendeleev Communications, 32:2 (2022), 268  crossref
    17. Gufeng Li, Mingrong Lu, Shaoqing Li, Min Yang, Yuanling Zhang, Yanli Zhang, Hongbin Wang, Wenrong Yang, Chemosphere, 303 (2022), 135174  crossref
    18. Sh. Borji, M. Vahedpour, SSRN Journal, 2022  crossref
    19. V. S. D. Gomes, J. C. C. Ferreira, R. E. F. Boto, P. Almeida, J. R. Fernandes, M. J. Sousa, M. S. T. Gonçalves, L. V. Reis, Photochem & Photobiology, 98:6 (2022), 1402  crossref
    20. Ya.-F. He, J.-W. Chen, Ch.-Zh. An, X.-L. Hou, Z.-T. Zhong, Ch.-Q. Li, W. Chen, B. Liu, Yu.-D. Zhao, Spectroc. Acta Pt. A-Molec. Biomolec. Spectr., 263 (2021), 120203  crossref  isi
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