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Article Abstract
Fluorination can change graphene's properties, and which is theoretically relative to fluorination pattern offluorine adatoms on graphene surface. The common view for the pattern is that it can easily form as a large cluster for the low migration barrier of fluorine adatoms on pristine graphene surface. Here, we report thatfluorine adatoms are well-dispersed rather than clustered due to that the intensity ratio of 1.8 for C-CF/CF peaks () of fluorinated graphene is much higher than≈ 0 for clustered pattern. The low magnetic inducing efficiency of 1 /1000F adatoms indicates that the 'nonmagnetic' fluorine pairs rather than 'magnetic' fluorine 'points' dominate the well-dispersedpattern. Our findings introduce a new insight into the fluorination structure properties of fluorinated and otherfunctionalized such as hydrogenated, chlorinated, or hydroxylated graphene and other carbon materials.
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