Fluorinated Fullerenes

Abstract: Recent developments in fluorination of fullerenes coupled with HPLC separation have permitted the isolation and subsequent structural characterisation of many derivatives, a number of which have novel and unexpected structures. The good solubility of fluorofullerenes, high reactivity towards nucleophiles and enhanced dienophilicity of the unsubstituted part of the cage, as a result of electron withdrawal by the fluorines, makes fluorofullerenes promising synthons. In particular that may have enhanced performan… Show more

“…Related to this, the chlorination of C60 using iodine monochloride allowed the isolation of two fullerene chlorides, C60Cl6 [40] and C70Cl10 [41], characterized by NMR spectra. Finally, the fluorination of fullerenes using metal fluorides (among other fluorination agents) results in a wide range of adducts, from C60F2 to C60F48 [42][43][44][45]. Owing to their relatively high thermal stability, fluorofullerenes (contrary to chloro-and bromofullerenes) have been extensively investigated by electron impact (EI) mass spectrometry.…”

On the Importance of Halogen–Halogen Interactions in the Solid State of Fullerene Halides: A Combined Theoretical and Crystallographic Study

“…Related to this, the chlorination of C60 using iodine monochloride allowed the isolation of two fullerene chlorides, C60Cl6 [40] and C70Cl10 [41], characterized by NMR spectra. Finally, the fluorination of fullerenes using metal fluorides (among other fluorination agents) results in a wide range of adducts, from C60F2 to C60F48 [42][43][44][45]. Owing to their relatively high thermal stability, fluorofullerenes (contrary to chloro-and bromofullerenes) have been extensively investigated by electron impact (EI) mass spectrometry.…”

On the Importance of Halogen–Halogen Interactions in the Solid State of Fullerene Halides: A Combined Theoretical and Crystallographic Study

“…Those in the second group are graphite covalent compounds, in which the carbon atoms are covalently bonded to the fluorine atoms [16][17][18]. The carbon-fluorine bonds formed in the case of fullerenes [19][20][21] and SWCNTs [22][23][24][25][26][27][28] are covalent in nature, while those formed in the case of MWCNTs [29][30][31][32] are both covalent and ionic.…”

Defluorination-assisted nanotube-substitution reaction with ammonia gas for synthesis of nitrogen-doped single-walled carbon nanotubes

“…This review will cover published literature concerning the use of elemental fluorine for the synthesis of carbon-fluorine bonds in organic systems over the period 1997-2006, updating our earlier review [8] on this subject in a similar format and complementing other recent discussions in this area [9][10][11]. The fluorination of fullerenes has been reviewed [12,13] and will not be discussed here whilst the chemistry of reagents that are synthesised from fluorine, such as reagents of the N-F class [6,14] and HOF [15], is also beyond the scope of this review.…”

Elemental fluorine in organic chemistry (1997–2006)