A Catalyst-Free One-Pot Protocol for the Construction of Substituted Sulfonyl Pyrazoles

Haojie Ma; Xiaoqiang Zhou; Bo Han; Ran Li; Xueyan Hou; Xingyue Ji; Yuqi Zhang; Guosheng Huang; Jijiang Wang

doi:10.6023/cjoc202104033

Chinese Journal of Organic Chemistry >

2021 , Vol. 41 >Issue 9: 3710 - 3716

DOI: https://doi.org/10.6023/cjoc202104033

NOTES

A Catalyst-Free One-Pot Protocol for the Construction of Substituted Sulfonyl Pyrazoles

Haojie Ma ,
Xiaoqiang Zhou ,
Bo Han ,
Ran Li ,
Xueyan Hou ,
Xingyue Ji ,
Yuqi Zhang ,
Guosheng Huang ,
Jijiang Wang

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a Key Laboratory of New Energy & New Functional Materials, Shaanxi Key Laboratory of Chemical Reaction Engineering, College of Chemistry and Chemical Engineering, Yan'an University, Yan'an, Shaanxi 716000
b State Key Laboratory of Applied Organic Chemistry, Lanzhou University, Lanzhou 730000
c College of Chemistry and Material, Weinan Normal University, Weinan, Shaanxi 714099

* Corresponding authors. E-mail: yqzhang@iccas.ac.cn;

* hgs@lzu.edu.cn

Received date: 2021-04-16

Revised date: 2021-04-27

Online published: 2021-06-22

Supported by

National Natural Science Foundation of China(21663032); National Natural Science Foundation of China(31701679); National Natural Science Foundation of China(22061041); PhD Research Startup Foundation of Yan'an University(YDBK2019-30); PhD Research Startup Foundation of Yan'an University(YDBK2015-11); Municipal Special Fund of Yan'an for High-Level Talents(2019-29); Yan'an University Training Program of Innovation and Entrepreneurship for Undergraduates(D2019016); Natural Science Basic Research Program of Shaanxi Province(2019JQ-902); Scientific Research Program Funded by Shaanxi Provincial Education Department(19JK0287)

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Abstract

A novel and efficient protocol for the construction of substituted pyrazoles from benzenesulfonohydrazides and pentane-2,4-diones under catalyst-free conditions was developed. This protocol features excellent tolerance to a variety of functional groups, step economy, simple operation with inexpensive reagents, mild reaction conditions, and can be scaled-up.

Key words： catalyst-free; sulfonyl pyrazole; pentane-2,4-dione; benzenesulfonohydrazide

Cite this article

Haojie Ma , Xiaoqiang Zhou , Bo Han , Ran Li , Xueyan Hou , Xingyue Ji , Yuqi Zhang , Guosheng Huang , Jijiang Wang . A Catalyst-Free One-Pot Protocol for the Construction of Substituted Sulfonyl Pyrazoles[J]. Chinese Journal of Organic Chemistry, 2021 , 41(9) : 3710 -3716 . DOI: 10.6023/cjoc202104033

References

[1]	(a) Brown, A. W. Adv. Heterocycl. Chem. 2018, 126, 55.
[1]	(b) Elkanzi, N. A. A. J. Chin. Chem. Soc. 2018, 65, 189.
[1]	(c) Pizzuti, L.; Barschak, A. G.; Stefanello, F. M.; Farias, M. D.; Lencina, C.; Roesch-Ely, M.; Cunico, W.; Moura, S.; Pereira, C. M. P. Curr. Org. Chem. 2014, 18, 115.
[1]	(d) Janin, Y. L. Chem. Rev. 2012, 112, 3924.
[1]	(e) Zhang, Q.; Tang, M. Org. Lett. 2019, 21, 1917.
[1]	(f) Sun, J.; Qiu, J. K.; Zhu, Y. L.; Guo, C.; Hao, W. J.; Jiang, B.; Tu, S. J. J. Org. Chem. 2015, 80, 8217.
[1]	(g) Li, G. L.; Huang, H. F.; Yang, J.; Duan, H. Z. Chin. J. Org. Chem. 2021, 41, 1466. (in Chinese).
[1]	( 李光磊, 黄海丰, 杨军, 段红珍, 有机化学, 2021, 41, 1466.)
[1]	(h) Chen, Y.; Zhu, J. N.; Zhao, S. Y. Chin. J. Org. Chem. 2019, 39, 1923. (in Chinese).
[1]	( 陈樱, 祝家楠, 赵圣印, 有机化学, 2019, 39, 1923.)
[1]	(i) Chen, D. X.; Xiong, H. L.; Yang, H. W.; Tang, J.; Cheng, G. B. FirePhysChem 2021, 1, 71.
[1]	(j) Dalinger, I. L.; Shkineva, T. K.; Vatsadze, I. A.; Kormanov, A. V.; Kozeev, A. M.; Suponitsky, K. Y.; Pivkina, A. N.; Sheremetev, A. B. FirePhysChem 2021, 1, 83.
[1]	(k) Zhu, X.; Hu, S.; Jiang, L.; Yang, W.; Yang, G. Sci. Sin.: Chim. 2016, 46, 1188.
[2]	(a) Abdel-Magid, A. F. ACS Med. Chem. Lett. 2014, 5, 730.
[2]	(b) Wang, S. H.; Zhang, B. H.; Chen, J.; Zheng, Y. Y.; Feng, N.; Ma, A. J.; Xu, X. T.; Abdullah, M. A. Chin. J. Org. Chem. 2020, 40, 15. (in Chinese).
[2]	( 王少华, 张帮红, 陈洁, 郑莹莹, 冯娜, 马爱军, 徐学涛, Abdullah M. Asiri, 有机化学, 2020, 40, 15.)
[3]	(a) Habeeb, A. G.; Rao, P. N. P.; Knaus, E. E. J. Med. Chem. 2001, 44, 3039.
[3]	(b) Li, Y.; Wan, J. P. Chin. J. Org. Chem. 2020, 40, 3889. (in Chinese).
[3]	( 李毅, 万结平, 有机化学, 2020, 40, 3889.)
[3]	(c) Wang, Y. C.; Wang, H. S.; Huang, G. B.; Huang, F. P.; Hu, K.; Pan, Y. M. Tetrahedron 2014, 70, 1621.
[4]	(a) Sridhar, R.; Perumal, P. T.; Etti, S.; Shanmugam, G.; Ponnuswamy, M. N.; Prabavathy, V. R.; Mathivanan, N. Bioorg. Med. Chem. Lett. 2004, 14, 6035.
[4]	(b) Liu, J. J.; Sun, J.; Fang, Y. B.; Yang, Y. A.; Jiao, R. H.; Zhu, H. L. Org. Biomol. Chem. 2014, 12, 998.
[4]	(c) Zeng, J. L.; Xu, Z. H.; Ma, J. A. Chin. J. Org. Chem. 2020, 40, 1105. (in Chinese).
[4]	( 曾俊良, 许志红, 马军安, 有机化学, 2020, 40, 1105.)
[5]	Bebernitz, G. R.; Argentieri, G.; Battle, B.; Brennan, C.; Balkan, B.; Burkey, B. F.; Eckhardt, M.; Gao, J.; Kapa, P.; Strohschein, R. J.; Schuster, H. F.; Wilson, M.; Xu, D. D. J. Med. Chem. 2001, 44, 2601.
[6]	Chang, C. P.; Wu, C. H.; Song, J. S.; Chou, M. C.; Wong, Y. C.; Lin, Y. C.; Yeh, T. K.; Sadani, A. A.; Ou, M. H.; Chen, K. H.; Chen, P. H.; Kuo, P. C.; Tseng, C. T.; Chang, K. H.; Tseng, S. L.; Chao, Y. S.; Hung, M. S.; Shia, K. S. J. Med. Chem. 2013, 56, 9920.
[7]	(a) Ouyang, G.; Cai, X. J.; Chen, Z.; Song, B. A.; Bhadury, P. S.; Yang, S.; Jin, L. H.; Xue, W.; Hu, D. Y.; Zeng, S. J. Agric. Food Chem. 2008, 56, 10160.
[7]	(b) Wu, Z.; Li, X.; Zhou, X.; Yang, W.; Ye, Y.; Song, B.; Yang, S. Sci. Sin.: Chim. 2016, 46, 1195.
[8]	(a) Xu, Z.; Gao, C.; Ren, Q. C.; Song, X. F.; Feng, L. S.; Lv, Z. S. Eur. J. Med. Chem. 2017, 139, 429.
[8]	(b) Ansari, A.; Ali, A.; Asif, M.; Shamsuzzaman New J. Chem. 2017, 41, 16.
[9]	(a) McGrath, N. A.; Brichacek, M.; Njardarson, J. T. J. Chem. Educ. 2010, 87, 1348.
[9]	(b) Ilardi, E. A.; Vitaku, E.; Njardarson, J. T. J. Chem. Educ. 2013, 90, 1403.
[9]	(c) Zhang, J.; Shao, Y.; Wang, H. X.; Luo, Q.; Chen, J. J.; Xu, D. M.; Wan, X. B. Org. Lett. 2014, 16, 3312.
[10]	(a) Katsuhiko, K.; Masahiro, S.; Takuo, K. Plant Physiol. 1979, 64, 774.
[10]	(b) Su, S. M.; Zhu, M.; Zhang, D. Q.; Yuan, D. K. Chin. J. Org. Chem. 2019, 39, 2026. (in Chinese).
[10]	( 苏诗淼, 朱墨, 张大强, 袁德凯, 有机化学, 2019, 39, 2026.)
[11]	Kazutoshi, W.; Yasuhiro, M.; Katsuhiko, I.; Toshiaki, W.; Satoshi, Y.; Hiroyoshi, N. Redox Rep. 2003, 8, 151.
[12]	Neumann, J. J.; Suri, M.; Glorius, F. Angew. Chem., Int. Ed. 2010, 49, 7790.
[13]	Shao, N.; Chen, T.; Zhang, T.; Zhu, H.; Zheng, Q.; Zou, H. Tetrahedron 2014, 70, 795.
[14]	(a) Knorr, L. Ber. Dtsch. Chem. Ges. 1883, 16, 2597.
[14]	(b) Wang, Z. X.; Qin, H. L. Green Chem. 2004, 6, 90.
[14]	(c) Katritzky, A. R. Handbook of Heterocyclic Chemistry, Pergamon, Oxford, 1985, p. 416.
[14]	(d) Hayter, M. J.; Bray, D. J.; Clegg, J. K.; Lindoy, L. F. Synth. Commun. 2006, 36, 707.
[14]	(e) Sanchez-Carmona, M. A.; ContrerasCruz, D. A.; Miranda, L. D. Org. Biomol. Chem. 2011, 9, 6506.
[14]	(f) Vaddula, B. R.; Varma, R. S.; Leazer, J. Tetrahedron Lett. 2013, 54, 1538.
[14]	(g) Zakerinasab, B.; Nasseri, M. A.; Hassani, H.; Samieadel, M. M. Res. Chem. Intermed. 2016, 42, 3169.
[14]	(h) Polshettiwar, V.; Varma, R. S. Tetrahedron Lett. 2008, 49, 397.
[15]	(a) Liu, H. L.; Jiang, H. F.; Zhang, M.; Yao, W. J.; Zhu, Q. H.; Tang, Z. Tetrahedron Lett. 2008, 49, 3805.
[15]	(b) Grotjahn, D. B.; Van, S.; Combs, D.; Lev, D. A.; Schneider, C.; Rideout, M.; Meyer, C.; Hernandez, G.; Mejorado, L. J. Org. Chem. 2002, 67, 9200.
[15]	(c) Bagley, M. C.; Lubinu, M. C.; Mason, C. Synlett 2007, 704.
[15]	(d) Sar, D.; Bag, R.; Yashmeen, A.; Bag, S. S.; Punniyamurthy, T. Org. Lett. 2015, 17, 5308.
[15]	(e) Zhang, H.; Wei, Q.; Zhu, G.; Qu, J.; Wang, B. Tetrahedron Lett. 2016, 57, 2633.
[16]	(a) McLaughlin, M.; Marcantonio, K.; Chen, C. Y.; Davies, I. W. J. Org. Chem. 2008, 73, 4309.
[16]	(b) Dishington, A.; Feron, J. L.; Gill, K.; Graham, M. A.; Hollingsworth, I.; Pink, J. H.; Roberts, A.; Simpson, I.; Tatton, M. Org. Lett. 2014, 16, 6120.
[17]	Hu, J.; Chen, S.; Sun, Y.; Yang, J.; Rao, Y. Org. Lett. 2012, 14, 5030.
[18]	(a) Yang, G. P.; He, X.; Yu, B.; Hu, C. W. Appl. Organomet. Chem. 2018, 32, 4532.
[18]	(b) Wang, H. F.; Sun, X. L.; Zhang, S. L.; Liu, G. L.; Wang, C. J.; Zhu, L. L.; Zhang, H. Synlett 2018, 29, 2689.
[18]	(c) Venkateswarlu, V.; Kour, J.; Aravinda Kumar, K. A.; Verma, P. K.; Lakshma Reddy, G.; Hussain, Y.; Tabassum, A.; Balgotra, S.; Gupta, S.; Hudwekar, A. D.; Vishwakarma, R. A.; Sawant, S. D. RSC Adv. 2018, 8, 26523.
[19]	Xiong, W.; Chen, J. X.; Liu, M. C.; Ding, J. C.; Wu, H. Y.; Su, W. K. J. Braz. Chem. Soc. 2009, 20, 367.
[20]	Polshettiwar, V.; Varma, R. S. Tetrahedron Lett. 2008, 49, 397.
[21]	Wang, Z.; Qin, H. Green Chem. 2004, 6, 90.
[22]	Curini, M.; Rosati, O.; Campagna, V.; Montanari, F.; Cravotto, G.; Boccalini, M. Synlett 2005, 2927.
[23]	Zhao, X.; Zhang, L.; Li, T.; Liu, G.; Wang, H.; Lu, K. Chem. Commun. 2014, 50, 13121.
[24]	(a) Liu, Y.; Meng, Y. N.; Huang, X. J.; Qin, F. H.; Wu, D. P.; Shao, Q. J.; Guo, Zh. Y.; Li, Q.; Wei, W. T. Green Chem. 2020, 22, 4593.
[24]	(b) Huang, X. J.; Qin, F. H.; Liu, Y.; Wu, Sh. P.; Li, Q.; Wei, W. T. Green Chem. 2020, 22, 3952.
[24]	(c) Kang, Q. Q.; Wu, W. F.; Li, Q.; Wei, W. T. Green Chem. 2020, 22, 3060.
[25]	(a) Qin, F. H.; Huang, X. J.; Liu, Y.; Liang, H.; Li, Q.; Cao, Zh.; Wei, W. T.; He, W. M. Chin. Chem. Lett. 2020, 31, 3267.
[25]	(b) Wang, G. D.; Guo, Y. H.; Wan, J. P. Chin. J. Org. Chem. 2020, 40, 645. (in Chinese).
[25]	( 王国栋, 郭艳辉, 万结平, 有机化学, 2020, 40, 645.)
[25]	(c) Dong, D. Q.; Li, G. H.; Chen, D. M.; Sun, Y. Y.; Han, Q. Q.; Wang, Z. L.; Xu, X. M.; Yu, X. Y. Chin. J. Org. Chem. 2020, 40, 1766. (in Chinese).
[25]	( 董道青, 李光辉, 陈德茂, 孙媛媛, 韩晴晴, 王祖利, 徐鑫明, 于贤勇, 有机化学, 2020, 40, 1766.)
[26]	Fustero, S.; Sanchez-Rosello, M.; Barrio, P.; Simon-Fuentes, A. Chem. Rev. 2011, 111, 6984.

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