Carbon 60 is a fascinating and arrestingly beautiful molecule. With 12 pentagonal and 20 hexagonal faces symmetrically arrayed in a soccer‐ball‐like structure that belongs to the icosahedral point group its high symmetry alone invites special attention. The publication in September 1990 of a simple technique for manufacturing and concentrating macroscopic amounts of this new form of carbon (see Donald R. Huffman's article in PHYSICS TODAY, November 1991, page 22) announced to the scientific community that enabling technology had arrived. Macroscopic amounts of (and the higher fullerenes, such as and ) can now be made with anapparatus as simple as an arc furnace powered with an arc welding supply. Accordingly, chemists, physicists and materials scientists have joined forces in an explosion of effort to explore the properties of this unusual molecular building block.
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November 1992
November 01 1992
Superconductivity in Doped Fullerenes
While there is not complete agreement on the microscopic mechanism of superconductivity in alkali‐metal‐doped C60, further research may well lead to the production of analogous materials that lose resistance at even higher temperatures.
Arthur F. Hebard
Arthur F. Hebard
AT&T Bell Laboratories, Murray Hill, New Jersey
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Physics Today 45 (11), 26–32 (1992);
Citation
Arthur F. Hebard; Superconductivity in Doped Fullerenes. Physics Today 1 November 1992; 45 (11): 26–32. https://doi.org/10.1063/1.881320
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