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Investigation of Gd3N@C2n family by Raman and inelastic electron tunneling spectroscopy

Published

Author(s)

James G. Kushmerick, Brian G. Burke, Tsz-Wah Chan, Keith A. Williams, Jiechao Ge, Chunying Shu, Wujun Fu, Harry C. Dorn, Alexander Puretzky, David B. Geohegan

Abstract

The structure and vibrational spectrum of Gd3N@C80 is studied through Raman and inelastic electron tunneling spectroscopy (IETS) as well as density functional theory (DFT) and universal force field (UFF) calculations. Hindered rotations, shown by both theory and experiment, indicate the formation of a Gd3N–C80 bond which reduces the ideal icosahedral symmetry of the C80 cage. We have conducted Raman studies of the Gd3N@C2n (n = 40, 41, 42, 43, 44) family and have studied Y3N@C80, Lu3N@C80 and Y3N@C88 for comparison. Conductance measurements have been performed on Gd3N@C80 and reveal a Kondo effect similar to that observed in C60.
Citation
Journal of the American Chemical Society

Keywords

"gadolinium", "endohedral fullerenes", "Raman spectroscopy", "metallofullerenes", "magnetic", "Kondo effect".

Citation

Kushmerick, J. , Burke, B. , Chan, T. , Williams, K. , Ge, J. , Shu, C. , Fu, W. , Dorn, H. , Puretzky, A. and Geohegan, D. (2010), Investigation of Gd3N@C2n family by Raman and inelastic electron tunneling spectroscopy, Journal of the American Chemical Society, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=903825 (Accessed October 31, 2024)

Issues

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Created March 15, 2010, Updated October 3, 2024