Recent Investigations on the Functionalizations of C(sp3)-H Bonds Adjacent to a Heteroatom

Xiao-Hua       Cai; Meng-Zhi       Yang; Bing       Xie

doi:10.2174/1570178616666190123131353

Abstract

The selective functionalization of unactivated C(sp3)-H bonds has been regarded as an efficient and atom-economical approach for the formation of carbon-carbon or carbon-heteroatom bonds in modern organic synthesis. Especially, the oxidative activation of C(sp3)–H bonds adjacent to a heteroatom exhibits quite significant features in synthetic chemistry. For example, the direct functionalizations of amines, amides and ethers present important alternative tactics for the synthesis of various novel and useful molecules from simple starting materials. Many remarkable achievements in the area had continuously been made in the past decades. Here we reviewed recent investigations on the transformations of C(sp3)-H bond adjacent to a heteroatom.

Keywords: C(sp3)-H bond, functionalization, adjacent to a heteroatom, oxidative coupling, catalytic oxidative reaction, synthetic chemistry.

« Previous Next »

Graphical Abstract

[1] 
Liao, K.; Negretti, S.; Musaev, D.G. Nature,  2016, 533, 230-234.
[2] 
Gadge, S.T.; Gautam, P.; Bhanage, B.M. Chem. Rec.,  2016, 16, 835-856.
[3] 
Hu, J-L.; Li, J.; Zhou, Y-F. Curr. Green Chem.,  2015, 2, 170-191.
[4] 
Chen, X.; Chen, T.; Ji, F. Cat. Sci. Tech.,  2015, 5, 2197-2202.
[5] 
Shaw, M.H.; Shurtleff, V.W.; Terrett, J.A. Science,  2016, 352, 1304-1308.
[6] 
Samanta, R.; Matcha, K.; Antonchick, A.P. Eur. J. Org. Chem.,  2013, 5769-5804.
[7] 
Mitchell, E.A.; Peschiulli, A.; Lefevre, N.; Meerpoel, L.; Maes, B.U.W. Chem. Eur. J.,  2012, 18, 10092-10142.
[8] 
Baudoin, O. Chem. Soc. Rev.,  2011, 40, 4902-4911.
[9] 
Tobisu, M. J. Synth. Org. Chem. Jpn.,  2010, 65, 820-821.
[10] 
Li, C.J. Acc. Chem. Res.,  2009, 42, 335-344.
[11] 
Campos, K.R. Chem. Soc. Rev.,  2007, 36, 1069-1084.
[12] 
Ping, L.; Chung, D.S.; Bouffard, J.; Lee, S. Chem. Soc. Rev.,  2017, 46, 4299-4328.
[13] 
Hernández, J.G. Chem. Eur. J.,  2017, 23, 17157-17165.
[14] 
Rousseaux, S.; Gorelsky, S.I.; Chung, B.K.W.; Fagnou, K. J. Am. Chem. Soc.,  2010, 132, 10692-10705.
[15] 
Ye, X.; Xie, C.S.; Pan, Y.Y.; Han, L.H.; Xie, T. Org. Lett.,  2010, 12, 4240-4243.
[16] 
Zhang, G.; Ma, Y.X.; Cheng, G.B.; Liu, D.B.; Wang, R. Org. Lett.,  2014, 16, 656-659.
[17] 
Murai, M.; Omura, T.; Kuninobu, Y.; Takai, K. Chem. Commun.,  2015, 51, 4583-4586.
[18] 
Tiwari, D.K.; Maurya, R.A.; Nanubolu, J.B. Chem. Eur. J.,  2016, 22, 526-530.
[19] 
Yang, L.; Zhang-Negrerie, D.; Zhao, K.; Du, Y. J. Org. Chem.,  2016, 81, 3372-3379.
[20] 
Gonnard, L.; Guéerinot, A.; Cossy, J. Tetrahedron,  2019, 75, 145-163.
[21] 
Zhang, G.; Wang, S.L.; Ma, Y.X.; Kong, W.D.; Wang, R. Adv. Synth. Catal.,  2013, 355, 874-879.
[22] 
Zhang, N.N.; Cheng, R.; Zhang-Negrerie, D.; Du, Y.F.; Zhao, K. J. Org. Chem.,  2014, 79, 10581-10587.
[23] 
Chen, W.J.; Ma, L.L.; Paul, A.; Seidel, D. Nat. Chem.,  2018, 10, 165-169.
[24] 
Xuan, J.; Xiao, W.J. Angew. Chem. Int.,  2012, 51, 6828-6838.
[25] 
Prier, C.K.; Rankic, D.A.; MacMillan, D.W. Chem. Rev.,  2013, 113, 5322-5363.
[26] 
Ravelli, D.; Fagnoni, M.; Albini, A. Chem. Soc. Rev.,  2013, 42, 97-113.
[27] 
Xi, Y.; Yi, H.; Lei, A. Org. Biomol. Chem.,  2013, 11, 2387-2403.
[28] 
Shi, L.; Xia, W. Chem. Soc. Rev.,  2012, 41, 7687-7697.
[29] 
Espelt, L.R.; Wiensch, E.M. Yoon, T.P. J. Org. Chem.,  2013, 78, 4107-4114.
[30] 
Feng, Z.J.; Zeng, T.T.; Xuan, J.; Liu, Y.H.; Lu, L.Q.; Xiao, W.J. Sci. China Chem.,  2016, 59, 171-174.
[31] 
Wang, C.Y.; Harms, K.; Meggers, E. Angew. Chem. Int.,  2016, 55, 13495-13498.
[32] 
Ding, W.; Lu, L-Q.; Liu, J.; Liu, D.; Song, H-T.; Xiao, W-J. J. Org. Chem.,  2016, 86, 7237-7243.
[33] 
Ide, T.; Shimizu, K.; Egami, H.; Hamashima, Y. Tetrahedron Lett.,  2018, 59, 3258-3261.
[34] 
Wei, Y.; Ding, H.Q.; Lin, S.X.; Liang, F.S. Org. Lett.,  2011, 13, 1674-1677.
[35] 
Kawamorita, S.; Miyazaki, T.; Iwai, T.; Ohmiya, H.; Sawamura, M. J. Am. Chem. Soc.,  2012, 134, 12924-12927.
[36] 
Xia, Q.Q.; Chen, W.Z. J. Org. Chem.,  2012, 77, 9366-9373.
[37] 
Saidulu, G.; Arun, K.R.; Rajender, R.K. Tetrahedron Lett.,  2015, 56, 4200-4203.
[38] 
Kono, M.; Harada, S.; Nemoto, T. Chem. Eur. J.,  2017, 23, 7428-7432.
[39] 
Tang, R-Y.; Xie, Y-X.; Xie, Y-L.; Xiang, J-N.; Li, J-H. Chem. Commun. ,  2011, 47, 12867-12869.
[40] 
Lao, Z-Q.; Zhong, W-H.; Lou, Q-H.; Li, Z-J.; Meng, X-B. Org. Biomol. Chem.,  2012, 10, 7869-7871.
[41] 
Zhu, Z.; Wang, Y.F.; Yang, M.; Huang, L.; Gong, J.H.; Guo, S.M.; Cai, H. Synlett,  2016, 27, 2705-2708.
[42] 
Zhang, S.; Guo, L-N.; Wang, H.; Duan, X-H. Org. Biomol. Chem.,  2013, 11, 4308-4311.
[43] 
Fang, H.; Zhao, J.C.; Ni, S.Y.; Mei, H.B. Han, J.L.; Yi, P. J. Org. Chem.,  2015, 80, 3151-3158.
[44] 
Huang, F-Q.; Zhou, G-X.; Dong, X.; Qi, L-W.; Zhang, B. Asian J. Org. Chem.,  2016, 5, 192-195.
[45] 
Wu, J.W.; Zhou, Y.; Zhou, Y.C.; Chiang, C.W.; Lei, A.W. ACS Catal.,  2017, 7, 8320-8323.
[46] 
Gao, B.; Chen, K.L.; Bi, X.L. Wang, J.X. Tetrahedron,  2017, 73, 7005-7010.
[47] 
Feng, J-J.; Oestreich, M. Org. Lett.,  2018, 20, 4273-4276.
[48] 
Xie, Y.J.; Yu, M.; Zhang, Y.H. Synthesis,  2011, 17, 2803-2809.
[49] 
Kumar, G.S.; Pieber, B.; Reddy, K.R.; Kappe, C.O. Chem. Eur. J.,  2012, 18, 6124-6128.
[50] 
Xie, Z.Y.; Cai, Y.P.; Hu, H.W.; Lin, C. Jiang, J.L.; Chen, Z.X.; Wang, L.Y.; Pan, Y. Org. Lett.,  2013, 15, 4600-4603.
[51] 
Wei, W-T.; Zhou, M-B.; Fan, J-H.; Liu, W.; Song, R-J.; Liu, Y.; Hu, M.; Xie, P. Li, J.-H. Angew. Chem. Int.,  2013, 52, 3638-3641.
[52] 
Huang, R.; Xie, C.S. Huang, L.; Liu, J.H. Tetrahedron,  2013, 69, 577-582.
[53] 
Liu, X.G.; Sun, B.; Xie, Z.Y.; Qin, X.J.; Liu, L.; Lou, H.X. J. Org. Chem.,  2013, 78, 3104-3112.
[54] 
Raju, K.B.; Kumar, B.N.; Nagaiah, K. RSC Advances,  2014, 4, 50795-50800.
[55] 
Gu, L.J.; Wang, W.; Xiong, Y.; Huang, X.Z.; Li, G.P. Eur. J. Org. Chem.,  2014, 319-322.
[56] 
Xu, Y.L.; Chen, Y.Y.; Li, W.; Xie, Q.; Shao, L.M. J. Org. Chem.,  2016, 81, 8426-8435.
[57] 
He, T.; Yu, L.; Zhang, L.; Wang, L. Org. Lett.,  2011, 13, 5016-5019.
[58] 
Cao, J-J.; Zhu, T-H.; Wang, S-Y.; Gu, Z-Y.; Wang, X. Ji, S.-J. Chem. Commun.,  2014, 50, 6439-6442.
[59] 
Zhou, W.; Qian, P. Zhao, J.C.; Fang, H.; Han, J.I., Pan, Y. Org. Lett.,  2015, 17, 1160-1163.
[60] 
Hu, M.; Fan, J-H.; Liu, Y.; Ouyang, X-H.; Song, R-J.; Li, J-H. Chem. Int. Ed.,  2015, 54, 9577-9580.
[61] 
Liu, W.B.; Chen, N.; Yang, X.B.; Li, L.; Li, C-J. Chem. Commun.,  2016, 52, 13120-13123.

Rights & Permissions Print Cite

Article Metrics

49

6

Journal Information

For Authors

For Editors

For Reviewers

Explore Articles

Open Access

Open Access Articles

For Visitors

DOI https://dx.doi.org/10.2174/1570178616666190123131353	Print ISSN 1570-1786
Publisher Name Bentham Science Publisher	Online ISSN 1875-6255

Letters in Organic Chemistry

Recent Investigations on the Functionalizations of C(sp3)-H Bonds Adjacent to a Heteroatom

Abstract Play Pause

Graphical Abstract

Related Journals

Related Books

Abstract