Hostname: page-component-745bb68f8f-d8cs5 Total loading time: 0 Render date: 2025-01-15T06:56:11.095Z Has data issue: false hasContentIssue false
  • English
  • Français

Microwave-Assisted Organic Synthesis

Published online by Cambridge University Press:  25 February 2011

Raymond J. Giguere
Raymond J. Giguere*
Affiliation:
Department of Chemistry, Skidmore College, Saratoga Springs, New York 12866-1632
Get access

Abstract

A concise overview of the use of microwave heating in organic synthesis is presented. The role of solvents and representative examples from the relevant literature are discussed to illustrate the significant impact this non-conventional heating mode continues to have in this area of materials research.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 269: Symposium L – Microwave Processing of Materials III , 1992 , 387
Copyright
Copyright © Materials Research Society 1992

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

References And Notes

1. Walkins, K., J. Chem. Ed. 12, 1043 (1983).CrossRefGoogle Scholar
2.a) Giguere, R.J., Bray, T.L., Duncan, S.M., Majetich, G.F., Tetrahedron Letters 27, 4945 (1986).Google Scholar
b) Gedye, R., Smith, F., Westaway, K., Humera, A., Baldisera, L., Laberge, L., Rousell, J., Tetrahedron Letters 27, 279 (1986).CrossRefGoogle Scholar
3. Giguere, R.J., in Organic Synthesis: Theory and Aoplications. Vol. 1. edited by Hudlicky, Tomas (JAI Press, Greenwich, CT, 1989), pp. 103172.Google Scholar
4. Hasek, J.A., Wilson, R.C., Anal. Chem. 46, 1160 (1975).CrossRefGoogle Scholar
5 Kingston, H.M., Jassie, L.B., Introduction to Microwave Sample Preparation, (American Chemical Society, Washington, DC, 1988).Google Scholar
6. Bacci, M., Bini, M., Checcucci, A., Ignesti, A., Millanta, L., Rubino, N., Vanni, R., J. Chem. Soc. Faraday Trans 1 71, 1503 (1981).Google Scholar
7. Bose, A.J., Manhas, M.S., Ghosh, M., Shah, M., Raju, V.S., Bari, S.S., Newaz, S.N., Banik, B.K., Chaudhary, A.G., Barakat, K.J., J. Org. Chem. 56, 6968 (1991).CrossRefGoogle Scholar
8. Lowry, T.H., Richardson, K.S., Mechanism and Theory in Organic Chemistry, (Harper and Row, New York, 1987), p. 839.Google Scholar
9. Giguere, R.J., Namen, A.M., Lopez, B., Arepally, A., Ramos, D.E., Majetich, G., Defauw, J., Tetrahedron Letters 28, 6553 (1987).Google Scholar
10. Bong, C.-H., Dr. rer. nat. thesis, University of Cologne, Germany, 1952.Google Scholar
11. Lei, B., Fallis, A.G., J. Amer. Chem. Soc. 112, 4609 (1990).Google Scholar
12. Corey, E.J., Mitra, R.B., Vatakencherry, P.A., J. Amer. Chem. Soc. 86, 478 (1964).CrossRefGoogle Scholar
13. Giguere, R.J., Herberich, B., Synthetic Communications 21, 2197 (1991).Google Scholar
14. Bram, G., Loupy, A., Majdoub, M., Tetrahedron, 46, 5167 (1990).Google Scholar
15. Villemin, D., Aloum, A.B., Synthetic Communications 21, 63 (1991).Google Scholar
16. Delgado, F., Alvarez, C., Garcia, O., Penieres, G., Marquez, C., Synthetic Communications 21, 2137, (1991) and references therein.Google Scholar
17. Bagurst, D.R., Cooper, S.R., Greene, D.L., Mingos, D.M.P., Reynolds, S.M., Polyhedron 9, 893 (1990).Google Scholar
18. Narasimhan, V., Huh, W.K., Biochemistry International 25, 363 (1991) and references therein.Google Scholar
19. Berlan, J., Giboreau, P., Lefeuvre, S., Marchand, C., Tetrahedron Letters 32, 2363 (1991) and references therein.Google Scholar
20.For example, a new extraction technique has recently been developed that takes advantage of this fact, cf: Ganzler, K., Szinai, I., Salgo, A., J. Chromat. 520, 257 (1990).Google Scholar