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A Chiral Functionalized Salt-Catalyzed Asymmetric Michael Addition of Ketones to Nitroolefins

  1. Yan Xiong1,
  2. Yuehong Wen1,
  3. Fei Wang1,
  4. Bo Gao1,
  5. Xiaohua Liu1,
  6. Xiao Huang1,
  7. Xiaoming Feng1,2

Article first published online: 11 SEP 2007

DOI: 10.1002/adsc.200700184

Issue

Advanced Synthesis & Catalysis

Advanced Synthesis & Catalysis

Volume 349, Issue 13, pages 2156–2166, September 3, 2007

Additional Information

How to Cite

Xiong, Y., Wen, Y., Wang, F., Gao, B., Liu, X., Huang, X. and Feng, X. (2007), A Chiral Functionalized Salt-Catalyzed Asymmetric Michael Addition of Ketones to Nitroolefins. Adv. Synth. Catal., 349: 2156–2166. doi: 10.1002/adsc.200700184

Author Information

  1. 1

    Key Laboratory of Green Chemistry & Technology (Sichuan University), Ministry of Education, College of Chemistry, Sichuan University, Chengdu 610064, People's Republic of China

  2. 2

    State Key Laboratory of Biotherapy, Sichuan University, Chengdu 610041, People's Repubic of China, Fax: (+86)-28-8541-8249

Publication History

  1. Issue published online: 18 SEP 2007
  2. Article first published online: 11 SEP 2007
  3. Manuscript Received: 15 APR 2007

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Keywords:

  • amino acids;
  • diamines;
  • Michael addition;
  • nitroolefins;
  • salt catalysis

Abstract

The chiral functionalized salt catalysis, which differs from the known enzyme- and transition metal-based methods, has been successfully developed to carry out the Michael addition of ketones to nitroolefins. Chiral anion salt (type I), chiral cation salt (type II), or chiral anion-chiral cation salt (type III) could be expected to be remarkably effective catalysts and afford the corresponding chemically and optically pure Michael addition adducts. A primary amine group activating the ketone during salt catalysis was their obvious and common property. Based on preliminary experimental investigations and previous reports on primary amine catalysis, a reaction pathway via imine, enamine, iminium ion to imine was proposed.

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