97229-07-7Relevant academic research and scientific papers
Inverted Hyperconjugation in Symmetrical 1,4-Dihalocubanes
Honegger, Evi,Heilbronner, Edgar,Urbanek, Thomas,Martin, Hans-Dieter
, p. 23 - 38 (1985)
The ?-orbital manifold of cubane 1, as suggested by its PE spectrum, is divided into sets separated by a 3eV gap extending from ca. -10.5 eV to ca. -13.5 eV.Halogen substituents with np AO basis energies falling into this gap (e.g.Cl or Br) will, therefore, hyperconjugate appreciable with both sets.Interaction with the lower-lying set will lead to the usual destablization ('normal'hyperconjugation), whereas interaction with the set above will necessarily lead to a 'stabilization' ('inverted' hyperconjugation).As a result the lone-pair ionization energies of Cl or Br substituted cubanes (derived from PE spectra) are much larger than naively expected for an alkyl halide containing as much as 8 C-atoms.In particular no significant shift of the eg-1 lone-pair bands in the PE spectra of 1,4-dichloro- and 1,4-dibromocubane can be detected with respect to the first ionization energies of the free atoms Cl and Br, or of HCl and HBr.
Halogenation of cubane under phase-transfer conditions: Single and double C - H-bond substitution with conservation of the cage structure
Fokin,Lauenstein,Gunchenko,Schreiner
, p. 1842 - 1847 (2007/10/03)
The first highly selective C - H chlorination, bromination, and iodination of cubane (1) utilizing polyhalomethanes as halogen sources under phase-transfer (PT) conditions is described. Isomeric dihalocubanes with all possible combinations of chlorine, bromine, and iodine in ortho, meta, and para positions were also prepared by this method; m-dihalo products form preferentially. Ab initio and density functional theory (DFT) computations were used to rationalize the pronounced differences in the reactions of 1 with halogen (Hal·) vs carbon-centered trihalomethyl (Hal3C·) radicals (Hal = Cl, Br), For Hal3C radicals the C - H abstraction pathway is less unfavorable (ΔG?298 = 21.6 kcal/mol for C3C· and 19.4 kcal/mol for Br3C· at B3LYP/6-311+G**//B3LYP/6-31G**) than the fragmentation of the cubane skeleton via SH2-attack on one of the carbon atoms of 1 (ΔG?298 = 33.8 and 35.1 kcal/mol, respectively). In stark contrast, the reaction of 1 with halogen atoms preferentially follows the fragmentation pathway (ΔG?298 = 2.1 and 7.5 kcal/mol) and C - H abstraction is more unfavorable (ΔG?298 = 4.6 and 12.0 kcal/mol). Our computational results nicely agree with the behavior of 1 under PT halogenation conditions (where Hal3C· is involved in the activation step) and under free-radical photohalogenation with Hal2 (Della E. W., et al. J. Am. Chem. Soc. 1992, 114, 10730). The incorporation of a second halogen atom preferentially in the meta position of halocubanes demonstrates the control of the regioselectivity by molecular orbital symmetry.
