We calculate the structural and electronic properties of the Na6C60 fulleride using the Car-Parrinello method as well as standard local density approximation band structure calculations. In contrast to previous claims we find that metal clusters do not form but, like the potassium and rubidium fullerides, sodium intercalation gives rise to a conventional ionic compound. Unlike the case of heavier alkali fullerides, a characteristic new kind of low-lying electron state appears that is not the C60 state. Effects of temperature on the electronic nature of the compound are discussed as well as consequences of these findings for higher fullerides.
ABSENCE OF METAL-CLUSTERS AND APPEARANCE OF NEW ELECTRON-STATES IN NA6C60
GIANNOZZI, Paolo;
1994-01-01
Abstract
We calculate the structural and electronic properties of the Na6C60 fulleride using the Car-Parrinello method as well as standard local density approximation band structure calculations. In contrast to previous claims we find that metal clusters do not form but, like the potassium and rubidium fullerides, sodium intercalation gives rise to a conventional ionic compound. Unlike the case of heavier alkali fullerides, a characteristic new kind of low-lying electron state appears that is not the C60 state. Effects of temperature on the electronic nature of the compound are discussed as well as consequences of these findings for higher fullerides.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.