Atoms and Molecules Within Fullerenes
Yale University, New Haven CT
Investigators
Abstract
With this renewal award, the Organic and Macromolecular Chemistry Program continues its support for the work of Drs. Martin Saunders and James R. Cross of the Department of Chemistry at Yale University in New Haven, Connecticut. The work builds on the seminal discovery that noble gas atoms, and small molecules like N2 and CO, can be trapped inside the carbon atom cages of fullerenes. The trapped atoms and molecules perturb the cages, and in some cases provide valuable spectroscopic handles for monitoring chemical reactions occuring on the outside faces of the cages. Particularly useful in this regard has been trapped 3He, since this isotope of helium has a nuclear spin of 1/2 and can be readily detected by NMR. These endohedral fullerenes are of the type 3He@Cn, where n=60, 70, and 84. Work during the next period will focus on using 3He nuclear magnetic resonance to follow the separation and purification of the isomers of 3He@C70 and 3He@C84. Methods for removal of the helium atom from the carbon cages will also be investigated, potentially providing a way to supply pure isomers of the C70 and C84 fullerenes for further chemical studies. The PIs have initiated a large number of collaborative research efforts with others who are using the new compounds to investigate their chemistry and potential applications, which range from geochemistry to medicine.
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