Sustainable Conjugate Addition of Indoles Catalyzed by Acidic Ionic Liquid Immobilized on Silica

 

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Abstract

A new protocol for 1,4-conjugate addition of indoles to vinyl ketones has been developed, employing Lewis acidic ionic liquid immobilized on silica, ILIS-SO₂Cl, as a catalyst, which exhibited an efficient, mild and recyclable nature. The reaction condition is applicable to various vinyl ketones and indoles. The mild nature of the reaction condition showed that the acetoxy or TBDMS group in indoles was maintained intact. The catalyst was used six times resulting in 86% average yield.

References and Notes

• 1a Sundberg RJ. Indoles   Academic Press; San Diego: 1996. 
  Google Scholar
• 1b Sundberg RJ. The Chemistry of Indoles   Academic Press; New York: 1970. 
  Google Scholar
• 2a Zhou W. Xu L.-W. Li L. Yang L. Xia C.-G. Eur. J. Org. Chem.  2006,  5225 
  CrossrefGoogle Scholar
• 2b Zhang H.-B. Liu L. Liu Y.-L. Chen Y.-J. Wang J. Wang D. Synth. Commun.  2007,  37:  173 
  CrossrefGoogle Scholar
• 3a Loh TP. Wei LL. Synlett  1998,  975 
  Google Scholar
• 3b Wang SY. Ji SJ. Loh TP. Synlett  2003,  2377 
  Google Scholar
• 3c Li Z. Shi Z. He C. J. Organomet. Chem.  2005,  690:  5049 
  Google Scholar
• 3d Nayak SK. Synth. Commun.  2006,  36:  1307 
  Google Scholar
• 3e Huang Z.-H. Zou J.-P. Jiang W.-Q. Tetrahedron Lett.  2006,  47:  7965 
  Google Scholar
• 3f Itoh T. Uehara H. Ogiso K. Nomura S. Hayase S. Kawatsura M. Chem. Lett.  2007,  36:  50 
  Google Scholar
• 3g Yadav JS. Reddy BVS. Raju A. Ravindar K. Baishya G. Chem. Lett.  2007,  36:  1056 
  Google Scholar
• 3h Maiti G. Kundu P. Synth. Commun.  2007,  37:  2309 
  Google Scholar
• 3i Ambrogio I. Arcadi A. Cacchi S. Fabrizi G. Marinelli F. Synlett  2007,  1775; and references cited in these papers 
  Google Scholar
• 4a Kusurkar RS. Alkobati NAH. Gokule AS. Chaudhari PM. Waghchaure PB. Synth. Commun.  2006,  36:  1075 
  Google Scholar
• 4b Mohammadpoor-Baltok I. Memarian HR. Khosropour AR. Nikoofar K. Heterocycles  2006,  68:  1837 
  Google Scholar
• 4c Banik BK. Garcia I. Morales FR. Heterocycles  2007,  71:  919; and earlier references cited in these references 
  Google Scholar
• 5 Harrington P. Kerr MA. Can. J. Chem.  1998,  76:  1256 
  CrossrefGoogle Scholar
• 6 Hagiwara H. Sekifuji M. Hoshi T. Qiao K. Yokoyama C. Synlett  2007,  1320 
  Article in Thieme ConnectGoogle Scholar
• 7 Gu Y. Ogawa C. Kobayashi S. Org. Lett.  2007,  9:  175 
  CrossrefGoogle Scholar
• 8 Qiao K. Hagiwara H. Yokoyama C. J. Mol. Catal. A: Chem.  2006,  246:  65 
  CrossrefGoogle Scholar
• 10a Laszlo P. Teston M. J. Am. Chem. Soc.  1990,  112:  8750 
  CrossrefGoogle Scholar
• 10b Leach MR. In Lewis Acid/Base Reaction Chemistry   Meta-Synthesis; Brighton, UK: 1999. 
  CrossrefGoogle Scholar

Typical Experimental Procedure: A suspension of but-3-en-2-one (50 µL, 0.6 mmol), indole (35.3 mg, 0.3 mmol) and ILIS-SO₂Cl (4; 171 mg; loading of sulfonyl chloride: 0.35 mmol/g, 0.06 mmol) in Et₂O (0.2 mL) was stirred gently at ambient temperature for 4 h in open air, resulting in evaporation of Et₂O. The catalyst was washed with Et₂O and separated by centrifugation. After decantation of the Et₂O layer, the catalyst was washed again with EtOAc and then with CH₂Cl₂ in a similar manner. The combined organic layer was evaporated to dryness. Medium pressure LC of the residue (eluent: EtOAc-n-hexane, 1:1) afforded the conjugated addition product 3 (51.9 mg, 92% based on indole 2).