First-principles study on atomic configuration of electron-beam irradiated C60 clusters

Abstract

A theoretical study proposes the atomic configuration of electron-beam irradiated C60 thin films. We examined the electronic structure and electron-transport properties of the C60 clusters using density-functional calculations and found that a rhombohedral C60 polymer with sp3-bonded dumbbell-shaped connections at the molecule junction is a semiconductor with a narrow band gap while the polymer changes to exhibit metallic behavior by forming sp2-bonded peanut-shaped connections. Conductance below the Fermi level increases and the peak of the conductance spectrum arising from the tu1 states of a C60 molecule becomes obscure after the connections are rearranged. The present rohmbohedral film, including the [2+2] four-membered rings and peanut-shaped connections, is a candidate to represent the structure of the metallic C60 polymer at the initial stage of electron-beam irradiation.