| Literature DB >> 17769600 |
Y Iwasa, T Arima, R M Fleming, T Siegrist, O Zhou, R C Haddon, L J Rothberg, K B Lyons, H L Carter, A F Hebard, R Tycko, G Dabbagh, J J Krajewski, G A Thomas, T Yagi.
Abstract
The fullerene C(60) can be converted into two different structures by high pressure and temperature. They are metastable and revert to pristine C(60) on reheating to 300 degrees C at ambient pressure. For synthesis temperatures between 300 degrees and 400 degrees C and pressures of 5 gigapascals, a nominal face-centered-cubic structure is produced with a lattice parameter a(o) = 13.6 angstroms. When treated at 500 degrees to 800 degrees C at the same pressure, C(60) transforms into a rhombohedral structure with hexagonal lattice parameters of a(o) = 9.22 angstroms and c(o) = 24.6 angstroms. The intermolecular distance is small enough that a chemical bond can form, in accord with the reduced solubility of the pressure-induced phases. Infrared, Raman, and nuclear magnetic resonance studies show a drastic reduction of icosahedral symmetry, as might occur if the C(60) molecules are linked.Entities:
Year: 1994 PMID: 17769600 DOI: 10.1126/science.264.5165.1570
Source DB: PubMed Journal: Science ISSN: 0036-8075 Impact factor: 47.728