Journal
ACS NANO
Volume 7, Issue 1, Pages 65-74Publisher
AMER CHEMICAL SOC
DOI: 10.1021/nn305268b
Keywords
layered materials; fluorination; graphene; X-ray absorption; DFT calculation
Categories
Funding
- bilateral Program Russian-German Laboratory at BESSY
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Highly oriented pyrolytic graphite characterized by a low misorientation of crystallites is fluorinated using a gaseous mixture of BrF3 with Br-2 at room temperature. The golden-colored product, easily delaminating into micrometer-size transparent flakes, is an intercalation compound where Br-2 molecules are hosted between fluorinated graphene layers of approximate C2F composition. To unravel the chemical bonding in semifluorinated graphite, we apply angle-resolved near-edge X-ray absorption fine structure (NEXAFS) spectroscopy and quantum-chemical modeling. The strong angular dependence of the CK and FK edge NEWS spectra on the Incident radiation indicates that room-temperature-produced graphite fluoride is a highly anisotropic material, where half of the carbon atoms are covalently bonded with fluorine, while the rest of the carbon atoms preserve pi electrons. Comparison of the experimental CK edge spectrum with theoretical spectra plotted for C2F models reveals that fluorine atoms are more likely to form chains. This conclusion agrees with the atomic force microscopy observation of a chain-like pattern on the surface of graphite fluoride layers.
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