Using microwave irradiation as an enabling tool
for preparative chemistry and the education of the scientists of tomorrow

The image, constructed by Rich Davis (CEM Microwave Technology) for a Tetrahedron Symposium In Print, is a collage bringing together some concepts of microwave-promoted synthesis. Microwaves, like all electromagnetic radiation, travel at the speed of light. They are of relatively low energy and cannot break chemical bonds. They cause heating on a molecular level and can accelerate reactions, leading to a significant time saving and often improving product yields.

Nicholas E. Leadbeater

Department of Chemistry, Unit 3060
55 North Eagleville Rd
University of Connecticut
Storrs, CT 06269-3060

Phone: 860-617-3518
e-mail: nicholas.leadbeater@uconn.edu

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Using microwave irradiation as an enabling toolfor preparative chemistry and the education of the scientists of tomorrow

Nicholas E. Leadbeater

Using microwave irradiation as an enabling tool
for preparative chemistry and the education of the scientists of tomorrow