Chemical Science
Please do not adjust margins
Page 6 of 7
ARTICLE
Journal Name
DOI: 10.1039/C9SC01083A
Notes and references
1. M. B. Nicholas A. McGrath, and Jon T. Njardarson, J. Chem.
Educ, 2012, 87, 1348-1359.
2. F. Mo, G. Dong, Y. Zhang and J. Wang, Org Biomol Chem, 2013,
11, 1582-1593.
and M. Shinji, Chemistry Letters, 2001, 30, 422-423; (i) K.
Fumitoshi, I. Kimitaka, M. Mitsutaka, H. Tomoo, C. Naoto and
M. Shinji, Chemistry Letters, 2002, 31, 396-397; (j) F. Kakiuchi,
M. Matsumoto, K. Tsuchiya, K. Igi, T. Hayamizu, N. Chatani and
S. Murai, Journal of Organometallic Chemistry, 2003, 686, 134-
144; (k) H. Ihara and M. Suginome, Journal of the American
Chemical Society, 2009, 131, 7502-7503; (l) A. Modak, T. Patra,
R. Chowdhury, S. Raul and D. Maiti, Organometallics, 2017, 36,
2418-2423; (m) A. Maji, S. Guin, S. Feng, A. Dahiya, V. K. Singh,
P. Liu and D. Maiti, Angew Chem Int Ed Engl, 2017, 56, 14903-
14907; (n) Z. Xu, L. Chai and Z. Q. Liu, Org Lett, 2017, 19, 5573-
5576; (o) W. B. Liu, D. P. Schuman, Y. F. Yang, A. A. Toutov, Y.
Liang, H. F. T. Klare, N. Nesnas, M. Oestreich, D. G. Blackmond,
S. C. Virgil, S. Banerjee, R. N. Zare, R. H. Grubbs, K. N. Houk and
B. M. Stoltz, J Am Chem Soc, 2017, 139, 6867-6879; (p) A. A.
Toutov, W. B. Liu, K. N. Betz, A. Fedorov, B. M. Stoltz and R. H.
Grubbs, Nature, 2015, 518, 80-84; (q) K. Nozawa-Kumada, S.
Osawa, M. Sasaki, I. Chataigner, M. Shigeno and Y. Kondo, The
Journal of Organic Chemistry, 2017, 82, 9487-9496; (r) S.
Banerjee, Y. F. Yang, I. D. Jenkins, Y. Liang, A. A. Toutov, W. B.
Liu, D. P. Schuman, R. H. Grubbs, B. M. Stoltz, E. H. Krenske, K.
N. Houk and R. N. Zare, J Am Chem Soc, 2017, 139, 6880-6887;
(s) Y. Ma, B. Wang, L. Zhang and Z. Hou, J Am Chem Soc, 2016,
138, 3663-3666; (t) S. Liu, P. Pan, H. Fan, H. Li, W. Wang and Y.
Zhang, Chemical Science, 2019, DOI: 10.1039/c9sc00046a.
16. C. Zarate, M. Nakajima and R. Martin, J Am Chem Soc, 2017,
139, 1191-1197.
3. (a) K. Ouyang, W. Hao, W. X. Zhang and Z. Xi, Chem Rev, 2015,
115, 12045-12090; (b) T. P. H. Jeffrey B. Bonanno, David R.
Neithamer, and a. E. B. L. Peter T. Wolczanski, J Am Chem Soc,
1996, 118, 5132-5133; (c) X. Cong, F. Fan, P. Ma, M. Luo, H.
Chen and X. Zeng, Journal of the American Chemical Society,
2017, 139, 15182-15190; (d) Z. C. Cao, X. L. Li, Q. Y. Luo, H.
Fang and Z. J. Shi, Org Lett, 2018, 20, 1995-1998; (e) Z.-C. Cao,
S.-J. Xie, H. Fang and Z.-J. Shi, Journal of the American Chemical
Society, 2018, 140, 13575-13579.
4. (a) A.-L. H. Ernest Wenkert, and Christian-Johannes Jenny, J.
Chem. Soc., Chem. Commun., 1988, 0, 975-976; (b) E. L. M.
Ernest Wenkert, Charles S. Swindell, and Marco Tingoli, J. Org.
Chem., 1984, 49, 4894-4899.
5. (a) L. G. Xie and Z. X. Wang, Angew Chem Int Ed Engl, 2011, 50,
4901-4904; (b) X. Q. Zhang and Z. X. Wang, J Org Chem, 2012,
77, 3658-3663.
6. (a) W.-J. Guo and Z.-X. Wang, Tetrahedron, 2013, 69, 9580-
9585; (b) D. R. F. Johnathan T Reeves, Zhulin Tan, Jinhua J.
Song, Heewon Lee, Nathan K. Yee, and Chris H. Senanayake,
Org. Lett., 2010, 12, 4388-4391.
7. (a) S. B. B. a. D. W. C. MacMillan, J Am Chem Soc, 2003, 125; (b)
T. K. Tetsuro Koreeda, and Fumitoshi Kakiuchi, J Am Chem Soc,
2009, 131, 7236-7239; (c) N. C. Satoshi Ueno, and Fumitoshi
Kakiuchi, J Am Chem Soc, 2007, 129, 6098-6099; (d) C. H.
Basch, J. Liao, J. Xu, J. J. Piane and M. P. Watson, J Am Chem
Soc, 2017, 139, 5313-5316; (e) P. Maity, D. M. Shacklady-
McAtee, G. P. Yap, E. R. Sirianni and M. P. Watson, J Am Chem
Soc, 2013, 135, 280-285.
8. (a) J. Hu, H. Sun, W. Cai, X. Pu, Y. Zhang and Z. Shi, J Org Chem,
2016, 81, 14-24; (b) H. Zhang, S. Hagihara and K. Itami,
Chemistry, 2015, 21, 16796-16800; (c) C. H. Basch, K. M. Cobb
and M. P. Watson, Org Lett, 2016, 18, 136-139.
17. E. M. Wiensch, D. P. Todd and J. Montgomery, ACS Catalysis,
2017, 7, 5568-5571.
18. (a) Y. Q. Yi, W. C. Yang, D. D. Zhai, X. Y. Zhang, S. Q. Li and B. T.
Guan, Chem Commun (Camb), 2016, 52, 10894-10897; (b) B.
Scholl, Jolidon, Synèse, and Hansen, Hans-Jürgen, Helvetica
Chemica Acta, 1986, 69, 184-194; (c) N. A. Paras, B. Simmons
and D. W. C. MacMillan, Tetrahedron, 2009, 65, 3232-3238.
19. (a) Q. Zhou, H. D. Srinivas, S. Dasgupta and M. P. Watson, J Am
Chem Soc, 2013, 135, 3307-3310; (b) B. Wang, Q. Zhang, J.
Jiang, H. Yu and Y. Fu, Chemistry – A European Journal, 2017,
23, 17249-17256.
9. M. T. L. Alicia B. Chopa, and Gustavo Silbestri, Organometallics,
2001, 20, 3358-3360.
10. B. Yang and Z. X. Wang,
10.1021/acs.joc.8b02926.
11. X. Q. Zhang and Z. X. Wang, Org Biomol Chem, 2014, 12, 1448-
1453.
12. N. Auner and J. Weis, Organosilicon chemistry VI: from
molecules to materials, Wiley-VCH, 2005.
J Org Chem, 2019, DOI:
20. (a) A. G. S. a. J. F. Hartwig, Science, 2011, 332, 439-443; (b) E.
M. Wiensch and J. Montgomery, Angewandte Chemie
International Edition, 2018, 57, 11045-11049.
21. C. C. a. J. F. Hartwig, Science, 2014, 343, 853-857.
13. M. J. Barnes, R. Conroy, D. J. Miller, J. S. Mills, J. G. Montana, P.
K. Pooni, G. A. Showell, L. M. Walsh and J. B. Warneck, Bioorg
Med Chem Lett, 2007, 17, 354-357.
14. (a) T. Komiyama, Y. Minami and T. Hiyama, Angew Chem Int Ed
Engl, 2016, 55, 15787-15791; (b) H.-o. S. Hajime Ito, Kikuo
Arimoto, Katsukiyo Miura, and Akira Hosomi, Chem. Lett.,
1997, 26, 639-640.
15. (a) C. Cheng and J. F. Hartwig, Chem Rev, 2015, 115, 8946-
8975; (b) M. Murata, N. Fukuyama, J.-i. Wada, S. Watanabe
and Y. Masuda, Chemistry Letters, 2007, 36, 910-911; (c) T. Lee
and J. F. Hartwig, J Am Chem Soc, 2017, 139, 4879-4886; (d) S.
Toshiyasu, T. Yuko, S. Touru and T. Masato, Chemistry Letters,
1987, 16, 2375-2378; (e) T. Ishiyama, T. Saiki, E. Kishida, I.
Sasaki, H. Ito and N. Miyaura, Org Biomol Chem, 2013, 11,
8162-8165; (f) C. Cheng and J. F. Hartwig, J Am Chem Soc,
2015, 137, 592-595; (g) E. M. Simmons and J. F. Hartwig,
6 | J. Name., 2012, 00, 1-3
This journal is © The Royal Society of Chemistry 20xx
Please do not adjust margins