14039-17-9Relevant academic research and scientific papers
SN1-type mechanism for the carbon-carbon bond cleavage of tetrakis(4-methylphenyl)ethanone cation radical. A laser flash photolysis study
Akaba, Ryoichi,Kamata, Masaki,Sakuragi, Hirochika,Tokumaru, Katsumi
, p. 8105 - 8108 (1992)
On the basis of measurements of rate constants for carbon-carbon bond cleavage of tetrakis(4-methylphenyl)ethanone cation radicals generated by pulsed laser excitation with sensitizers in solution, an SN1-type mechanism for the bond cleavage is proposed.
Flash-Photolysis Generation and Reactivities of Triarylmethyl and Diarylmethyl Cations in Aqueous Solutions
McClelland, Robert A.,Kanagasabapathy, V. M.,Banait, Narinder S.,Steenken, Steen
, p. 3966 - 3972 (2007/10/02)
A series of 18 triarylmethyl cations and 10 diarylmethyl cations have been generated by nanosecond laser flash photolysis of cyanide, 4-cyanophenyl ether, and acetate precursors in acetonitrile/water (AN/W) solutions and first-order rate constants for their reaction with the solvent (ks) have been directly measured following the decay in their optical density.In the standard solvent employed, 1:2 AN/W, the triarylmethyl cations which were studied had ks values at 20 deg C ranging from 1E1 s-1 (for the 4,4',4''-(MeO)3-substituted ion) to 9*1E6 s-1 (4,4'-(CF3)2), while diarylmethyl cations had ks values ranging from 1E5 s-1 (4,4'-(MeO)2) to 3*1E7 s-1 (4,4'-Me2).The parent diphenylmethyl cation and its derivative with one 4-methyl substituent were too short-lived (s of varying the amounts of acetonitrile were investigated for several cations.As water is added to 100percent acetonitrile, ks increases significantly, but at around 15percent by volume water, there is a leveling and from that point to 100percent water, ks is almost unchanged, decreasing by about 20percent.A plot of log ks versus ?+ constructed for the triarylmethyl cations shows significant deviations from linearity for the points for the ? donors, in the direction which indicates that ?+ is underestimating the stabilizing effect of these substituents for a fully formed cation.A plot versus ?C+, a parameter obtained from the analysis of NMR spectra of solutions of carbocations, is reasonably linear.A two-parameter correlation indicates that polar andresonance interactions of substituents do not proceed in parallel along the reaction coordinate, the addition of water to cation resulting at the transition state in the loss of 73percent of the equilibrium resonance effect but only a 33percent loss of the polar effect.A rate-equilibrium plot (log ks versus pKR) was constructed which covers 23 pKR units.A single line of slope 0.64 can be drawn to include the entire set of data for both triarylmethyl and diarylmethyl cations.From a small extrapolation the ks value for the tert-butyl cation in water is obtained as 1E10.5 s-1.
Stabilities of Carbocations in Solution. 14. An Extended Thermochemical Scale of Carbocation Stabilities in a Common Superacid
Arnett, Edward M.,Hofelich, Thomas C.
, p. 2889 - 2895 (2007/10/02)
Until now, thermodynamic stabilities of carbocations have been limited to (1) relatively stable resonance delocalized ions which are ranked on the pKR scale and (2) relatively unstable aliphatic and alicyclic ions which have been compared in the gas phase by ion cyclotron resonance or by calorimetry in SbF5/SO2ClF superacid at -50 to -120 deg C in our laboratory.The present paper will present an extensive series of new measurements which is designed to close the gap between the stable triarylmethyl cations and the unstable ions so as to put them all on a common energy scale.Carbinols were used as precursors in SbF5/HSO3F/SO2ClF at -40 deg C.As we reported recently (J.Am.Chem.Soc., 104, 3522(1982)), these conditions are necessary to avoid complications which appear to be introduced by ion-pairing when the alcohols are treated with the SbF5/SO2ClF system which was used previously to ionize alkyl chlorides.The results from the present work place 39 typical carbocations representing saturated, secondary, and tertiary, and aliphatic, bicyclic, and substituted cumyl, benzhydryl, and trityl systems on a common scale.Correlations and interpolation equations for relating other measurements in the gas phase and solution will be presented.The results provide useful comparisons of the ?+ and ?C+ scales for correlating carbocation stabilities and provide new data for several classic questions in the field such as the ranking of methyl, phenyl, and cyclopropyl groups for stabilizing ions and also the reactions of carbocations with water.
