Electron-phonon interaction in the solid form of the smallest fullerene C20

Abstract

The electron-phonon coupling of a theoretically devised carbon phase made by assembling the smallest fullerenes C20 is calculated from first principles. The structure consists of C20 cages in an fcc lattice interlinked by two bridging carbon atoms in the interstitial tetrahedral sites ( fcc-C22). The crystal is insulating but can be made metallic by doping with interstitial alkali atoms. In the compound NaC22 the calculated coupling constant λ/N(0) is 0.28 eV, a value much larger than in C60, as expected from the larger curvature of C20. On the basis of the McMillan's formula, the calculated λ=1.12 and a μ* assumed in the range 0.3-0.1 a superconducting Tc in the range 15-55 K is predicted.

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