Abstract
C60 single crystals have been intercalated with CHCl3 and CHBr3 in order to expand the lattice. High densities of electrons and holes have been induced by gate doping in a field-effect transistor geometry. At low temperatures, the material turns superconducting with a maximum transition temperature of 117 K in hole-doped C60/CHBr3. The increasing spacing between the C60 molecules follows the general trend of alkali metal-doped C60 and suggests routes to even higher transition temperatures.
Cite
CITATION STYLE
APA
Schön, J. H., Kloc, C., & Batlogg, B. (2001). High-temperature superconductivity in lattice-expanded C60. Science, 293(5539), 2432–2434. https://doi.org/10.1126/science.1064773
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