Скачать книгу

by the Cu(II)CN species to give an alkyl–Cu(III)CN 93 intermediate, from which a stereoselective reductive elimination provided the product and regenerated the Cu(I) catalyst. Although this chemistry is only compatible with the functionalization of benzylic positions, the authors applied it to the preparation of a range of cyanated substrates, all synthesized in good yields and enantioselectivities. Next, they subjected a number of products to a two‐step reduction with i‐Bu2AlH (to form a hemiaminal), followed by Et3SiH to furnish the desired C‐3 arylated piperidine products.

      1 1 Ricci, A. (2008). Amino Group Chemistry. Weinheim, Germany: Wiley‐VCH.

      2 2 Zard, S.Z. (2008). Chemical Society Reviews 37: 1603–1618.

      3 3 Stateman, L.M., Nakafuku, K.M., and Nagib, D.A. (2018). Synthesis 50: 1569.

      4 4 Chen, J.‐R., Hu, X.‐Q., Lu, L.Q., and Xiao, W.‐J. (2016). Chemical Society Reviews: 2044–2056.

      5 5 Stella, L. (1983). Angewandte Chemie, International Edition 22: 337.

      6 6 Wolff, M.E. (1963). Chemical Reviews 63: 55.

      7 7 Hofmann, A.W. (1879). Berichte der Deutschen Chemischen Gesellschaft 12: 984–990.

      8 8 Nechab, M., Mondal, S., and Bertrand, M.P. (2014). Chemistry ‐ A European Journal 20: 16034.

      9 9 Katohgi, M., Togo, H., Yamaguchi, K., and Yokoyama, M. (1999). Tetrahedron 55: 14885–14900.

      10 10 Luo, Y.‐R. (2003). Handbook of Bond Dissociation Energies in Organic Compounds. CRC Press.

      11 11 Walton, J.C. (2014). Accounts of Chemical Research 47: 1406.

      12 12 Lessard, J., Griller, D., and Ingold, K.U. (1980). Journal of the American Chemical Society 102: 3262.

      13 13 Chow, Y.L., Danen, W.C., Nelsen, S.F., and Rosenblatt, D.H. (1978). Chemical Reviews 78: 243.

      14 14 Angelini, L., Davies, J., Simonetti, M. et al. (2019). Angewandte Chemie, International Edition 58: 5003.

      15 15 Bietti, M. (2018). Angewandte Chemie, International Edition 57: 16618–16637.

      16 16 Hioe, J., Šakić, D., Vrček, V., and Zipse, H. (2015). Organic & Biomolecular Chemistry 13: 157.

      17 17 Forrester, A.R., Fullerton, J.D., and McConnachie, G. (1983). Journal of the Chemical Society, Perkin Transactions 1: 1759.

      18 18 Forrester, A.R., Napier, R.J., and Thomson, R.H. (1981). Journal of the Chemical Society, Perkin Transactions 1: 984.

      19 19 Forrester, A.R., Gill, M., Sadd, J.S., and Thomson, R.H. (1979). Journal of the Chemical Society, Perkin Transactions 1: 612.

      20 20 Forrester, A.R., Gill, M., Sadd, J.S., and Thomson, R.H. (1975). Journal of the Chemical Society, Chemical Communications: 291.

      21 21 Narasaka, K. and Kitamura, M. (2005). European Journal of Organic Chemistry: 4505.

      22 22 Davies, J., Booth, S.G., Essafi, S. et al. (2015). Angewandte Chemie, International Edition 54: 14017.

      23 23 Davies, J., Svejstrup, T.D., Reina, D.F. et al. (2016). Journal of the American Chemical Society 138: 8092.

      24 24 Davies, J., Morcillo, S.P., Douglas, J.J., and Leonori, D. (2018). Chemistry ‐ A European Journal 24: 12154.

      25 25 Li, J., Zhang, P., Jiang, M. et al. (2017). Organic Letters 19: 1994.

      26 26 Li, Y., Mao, R., and Wu, J. (2017). Organic Letters 19: 4472.

      27 27 Shu, W. and Nevado, C. (2017). Angewandte Chemie, International Edition 56: 1881.

      28 28 Jiang, H., An, X., Tong, K. et al. (2015). Angewandte Chemie, International Edition 54: 4055.

      29 29 Shen, X., Zhao, J.‐J., and Yu, S. (2018). Organic Letters 20: 5523.

      30 30 Chen, L., Guo, L.‐N., Ma, Z.‐Y. et al. (2019). The Journal of Organic Chemistry 84: 6475–6482.

      31 31 Wu, K., Wang, L., Colón‐Rodríguez, S. et al. (2019). Angewandte Chemie, International Edition 58: 1774–1778.

      32 32 Cismenia, M.A. and Yoon, T.P. (2015). Chemical Science 6: 5426.

      33 33 Duncton, M.A.J. (2011). Medicinal Chemistry Communications 2: 1135.

      34 34 Chen, H., Fan, W., Yuan, X.‐A., and Yu, S. (2019). Nature Communications 10: 4743.

      35 35 Quin, Q. and Yu, S. (2015). Organic Letters 17: 1894.

      36 36 Jiang, H. and Studer, A. (2018). Angewandte Chemie, International Edition 57: 1692.

      37 37 Morcillo, S.P., Dauncey, E.M., Kim, J.H. et al. (2018). Angewandte Chemie, International Edition 57: 12945.

      38 38 Davies, J., Sheikh, N.S., and Leonori, D. (2017). Angewandte Chemie, International Edition 56: 13361.

      39 39 Miller, D.C., Choi, G.J., Orbe, H.S., and Knowles, R.R. (2015). Journal of the American Chemical Society 137: 13492.

      40 40 Choi, G.J., Zhu, Q., Miller, D.C. et al. (2016). Nature 539: 268–271.

      41 41 Chu, J.C.K. and Rovis, T. (2016). Nature 539: 272–275.

      42 42 Xu, B. and Tambar, U.K. (2019). ACS Catalysis 9: 4627–4631.

      43 43 Thullen, S.M., Treacy, M.S., and Rovis, T. (2019). Journal of the American Chemical Society 141: 14062–14067.

      44 44 Zhang, H. and Muniz, K. (2017). ACS Catalysis 7: 4122.

      45 45 Becker, P., Duhamel, T., Stein, C.J. et al. (2017). Angewandte Chemie, International Edition 56: 8004.

      46 46 Martinez, C. and Muniz, K. (2015). Angewandte Chemie, International Edition 54: 8287.

      47 47 Bergès, J., García, B., and Muñiz, K. (2018). Angewandte Chemie, International Edition 57: 15891–15895.

      48 48 Wappes, E.A., Nakafuku, K.M., and Nagib, D.A. (2017). Journal of the American Chemical Society 139: 10204.

      49 49 Nakafuku, K.M., Twumasi, R.K., Vanitcha, A. et al. (2019). The Journal of Organic Chemistry 84: 13065–13072.

      50 50 Gomez‐Suarez, A., Gasperini, D., Vummaleti, S.V.C. et al. (2014). ACS Catalysis 4: 2701.

      51 51 Hernandez, R., Rivera, A., Salazar, J.A., and Suarez, E. (1980). Journal of the Chemical Society, Chemical Communications: 958.

      52 52 Francisco, C.G., Herrera, A.J., and Suarez, E. (2003). The Journal of Organic Chemistry 68: 1012.

      53 53 Francisco, C.G., Herrera, A.J., Martin, A. et al. (2007). Tetrahedron 48: 6384.

      54 54 Martin, A., Perez‐Mertin, I., and Suarez, E. (2009). Tetrahedron 65: 6147.

      55 55 Tang, N., Wu, X., and Zhu, C. (2019). Chem. Sci. 10: 6915–6919.

      56 56 Na, C.G. and Alexanian, E.J. (2018). Angewandte Chemie, International Edition 57: 13106–13109.

      57 57

Скачать книгу