Organofluorine Chemistry. Группа авторов

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Название Organofluorine Chemistry
Автор произведения Группа авторов
Жанр Химия
Серия
Издательство Химия
Год выпуска 0
isbn 9783527825141



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1.20b: addition of AgF to gem‐difluoroolefination gives rise to α‐CF3‐benzylsilver intermediate, which can undergo C—Ag bond homolysis to give α‐CF3‐substituted benzyl radical. Addition of this radical to non‐fluorinated alkene generates a new radical, which is oxidized to a carbocation followed by deprotonation to afford α‐CF3 alkene.

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c01h021 c01h022 c01h023

      Our efforts in the development of novel reagents for fluoroalkylation, fluoroolefination, and fluorination by probing the unique fluorine effects have been summarized. During our research work, we realized that (i) there are often unique fluorine effects in organic reactions, (ii) tackling the unique fluorine effect and unveiling the relationships among fluoroalkylation, fluoroolefination, and fluorination enable us to develop various reagents for synthetic organofluorine chemistry, and (iii) organofluorine reactions are not only practically useful but also provide fundamentally intriguing insights into generally organic reactions.

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      2 2 The newly approved drugs can be found by searching in the following website: https://www.fda.gov/drugs/development-approval-process-drugs/new-drugs-fda-cders-new-molecular-entities-and-new-therapeutic-biological-products.

      3 3 O'Hagan, D. and Deng, H. (2015). Chem. Rev. 115: 634–649.

      4 4 (a) Hu, J. (2009). J. Fluorine Chem. 130: 1130–1139.(b) Zhang, W., Ni, C., and Hu, J. (2012). Selective fluoroalkylation of organic compounds by tackling the “negative fluorine effect”. In: Fluorous Chemistry (ed. I.T. Horváth), 25–44. Berlin: Springer.(c) Ni, C. and Hu, J. (2011). Synlett.: 770–782.(d) Hu, J., Zhang, W., and Wang, F. (2009). Chem. Commun.: 7465–7478.(e) Shen, X. and Hu, J. (2014). Eur. J. Org. Chem. 2014: 4437–4451.(f) Ni, C., Hu, M., and Hu, J. (2015). Chem. Rev. 115: 765–825.(g) Ni, C. and Hu, J. (2016). Chem. Soc. Rev. 45: 5441–5454.(h) Zeng, Y. and Hu, J. (2016). Synthesis 48: 2137–2150.

      5 5 (a) Ni, C. and Hu, J. (2005). Tetrahedron Lett. 46: 8273–8277.(b) Ni, C., Li, Y., and Hu, J. (2006). J. Org. Chem. 71: 6829–6833.(c) Li, Y., Liu, J., Zhang, L. et al. (2007). J. Org. Chem. 72: 5824.(d) Zhang, W., Zhu, J., and Hu, J. (2008). Tetrahedron Lett. 49: 5006–5008.

      6 6 (a) Zhang, W., Huang, W., and Hu, J. (2009). Angew. Chem. Int. Ed. 48: 9858–9861.(b) Zhang, W., Wang, F., and Hu, J. (2009). Org. Lett. 11: 2109–2112.(c) Shen, X., Zhang, W., Ni, C. et al. (2012). J. Am. Chem. Soc. 134: 16999–17002.(d) Shen, X., Zhang, W., Zhang, L. et al. (2012). Angew. Chem. Int. Ed. 51: 6966–6970.(e) Shen, X., Miao, W., Ni, C., and Hu, J. (2014). Angew. Chem. Int. Ed. 53: 775–779.(f) Liu, Q., Shen, X., Ni, C., and Hu, J. (2017). Angew. Chem. Int. Ed. 56: 619–623.

      7 7 (a) Zhao, Y., Huang, W., Zhu, L., and Hu, J. (2010). Org. Lett. 122: 1444–1447.(b) Zhao, Y., Gao, B., Ni, C., and Hu, J. (2012). Org. Lett. 14: 6080–6083.(c) Zhao, Y., Jiang, F., and Hu, J. (2015). J. Am. Chem. Soc. 137: 5199–5203.(d) Rong, J., Deng, L., Tan, P. et al. (2016). Angew. Chem. Int. Ed. 55: 2743–2747.

      8 8 (a) Zhang, L., Zheng, J., and Hu, J. (2006). J. Org. Chem. 71: 9845–9848.(b) Zheng, J., Li, Y., Zhang, L. et al. (2007). Chem. Commun.: 5149–5151.(c) Wang, F., Huang, W., and Hu, J. (2011). Chin. J. Chem. 29: 2717–2721.(d) Wang, F., Luo, T., Hu, J. et al. (2011). Angew. Chem. Int. Ed. 50: 7153–7157.(e) Wang, F., Zhang, W., Zhu, J. et al. (2011). Chem. Commun. 47: 2411–2413.(f) Li, L., Wang, F., Ni, C., and Hu, J. (2013). Angew. Chem. Int. Ed. 52: 12390–12394.

      9 9 He, Z., Tan, P., Ni, C., and Hu, J. (2015). Org. Lett. 17: 1838–1841.

      10 10 Zhou, M., Ni, C., Zeng, Y., and Hu, J. (2018). J. Am. Chem. Soc. 140: 6801–6805.

      11 11 Li, L., Ni, C., Wang, F., and Hu, J. (2016). Nat. Commun. 7: 13320–13330.

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