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Mendeleev Communications, 2020, Volume 30, Issue 1, Pages 70–72
DOI: https://doi.org/10.1016/j.mencom.2020.01.023 (Mi mendc1104) 		 
This article is cited in 8 scientific papers (total in 8 papers)

Communications

Electrooxidative C–H thiocyanation of hetarenes: voltammetric assessment of thiocyanogen reactivity

V. A. Kokorekinab, E. I. Melnikovaa, R. R. Yaubasarovaa, V. A. Petrosyana

a N.D. Zelinsky Institute of Organic Chemistry, Russian Academy of Sciences, Moscow, Russian Federation
b I.M. Sechenov First Moscow State Medical University, Moscow, Russian Federation
Full-text PDF (355 kB) Citations (8)
DOI: https://doi.org/10.1016/j.mencom.2020.01.023
Abstract: The height of thiocyanogen reduction peak on cyclic voltammograms of thiocyanate ion can serve as the criterion for thiocyanogen reactivity towards hetarenes present in the electrolyte. This allows one to predict the efficiency of anodic thiocyanation of various hetarenes.
Keywords: electrosynthesis, aryl thiocyanates, electrooxidative C–H functionalization, hetarenes, nucleophiles, cyclic voltammetry.
Document Type: Article
Language: English


Citation: V. A. Kokorekin, E. I. Melnikova, R. R. Yaubasarova, V. A. Petrosyan, “Electrooxidative C–H thiocyanation of hetarenes: voltammetric assessment of thiocyanogen reactivity”, Mendeleev Commun., 30:1 (2020), 70–72
Linking options:
  • https://www.mathnet.ru/eng/mendc1104
  • https://www.mathnet.ru/eng/mendc/v30/i1/p70
    • This publication is cited in the following 8 articles:
    1. Deyang Liu, Zelong Zhang, Jiang Yu, Haihong Chen, Xuan Lin, Ming Li, Lirong Wen, Weisi Guo, “Site-selective electrochemical thiocyanation of benzylic C–H bonds”, Org. Chem. Front., 9:11 (2022), 2963  crossref
    2. Boris V. Lyalin, Vera L. Sigacheva, Anastasia S. Kudinova, Bogdan I. Ugrak, Vladimir A. Petrosyan, Vladimir A. Kokorekin, “Electrooxidative N–N Cross Coupling: A Way to New Azopyrazoles”, Chem Heterocycl Comp, 58:1 (2022), 1  crossref
    3. Shanxue Zhang, Yufeng Li, Tao Wang, Ming Li, Lirong Wen, Weisi Guo, “Electrochemical Benzylic C(sp3)–H Isothiocyanation”, Org. Lett., 24:8 (2022), 1742  crossref
    4. O. M. Mulina, O. V. Bityukov, V. A. Vil', A. O. Terent'ev, “Photo- and Electrochemically Initiated Thiocyanation Reactions”, Russ J Org Chem, 58:12 (2022), 1712  crossref
    5. V. M. Khodonov, A. S. Kudinova, V. A. Kokorekin, V. A. Petrosyan, M. P. Egorov, “Effective metal-free electrooxidative thiocyanation of anilines”, Mendeleev Commun., 32:1 (2022), 94–96  mathnet  crossref
    6. Yuriy N. Kozyrev, Andrey S. Mendkovich, Vladimir A. Kokorekin, Victor B. Luzhkov, Alexander I. Rusakov, “Integrated Study of the Thiocyanate Anion Electrooxidation by Electroanalytical and Computational Methods”, J. Electrochem. Soc., 168:12 (2021), 125501  crossref
    7. Boris V. Lyalin, Vera L. Sigacheva, Anastasia S. Kudinova, Sergey V. Neverov, Vladimir A. Kokorekin, Vladimir A. Petrosyan, “Electrooxidation Is a Promising Approach to Functionalization of Pyrazole-Type Compounds”, Molecules, 26:16 (2021), 4749  crossref
    8. Vladimir A. Kokorekin, Sergey V. Neverov, Vera N. Kuzina, Vladimir A. Petrosyan, “A New Method for the Synthesis of 3-Thiocyanatopyrazolo[1,5-a]pyrimidines”, Molecules, 25:18 (2020), 4169  crossref
    Citing articles in Google Scholar: Russian citations, English citations
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