Methyl-d3 isotope effects, .alpha.-methyl hydrogen rate effects, and the analysis of some solvolytic reaction mechanisms

Fisher, Robert D.; Seib, R. C.; Shiner, V. J.; Szele, Ivanka; Tomić, Mihovil; Sunko, Dionis E.

doi:10.1021/ja00842a017

Cited by 23 publications

(10 citation statements)

References 6 publications

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“…ether (or 21% ~ 41% 2-methyl-2-adamantyl (2,2,2-trifluoro) ethyl ether), and 27% ~ 77% 2-methyl-2-adamantanol, respectively. These values are very similar to those previously observed by Shiner 14 and Bentley 12 and their co-worker. As expected, the amount of 2-methyl-2-adamantanol (2-Me-2-AdOH) increased with increasing water content of the solvent, and in aqueous ethanol and TFE-ethanol mixtures the amount of 2-methyleneadamantane (olefin) decreased with increasing the solvent ionizing power (YCl-value).…”

Section: 14supporting

confidence: 92%

Rate and Product Studies with 2-Methyl-2-Chloroadamantane under Solvolytic Conditions

Lee¹,

Seong²,

Lee³

et al. 2010

Bulletin of the Korean Chemical Society

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Reactions of 2-methyl-2-chloroadamantane (1) in a variety of pure and binary solvents have been studied at various temperatures and pressures up to 80 MPa. The sensitivity (m) to changes in solvent ionizing power of the Grunwald-Winstein equation, and the activation volume (∆V ‡ ) are calculated from the specific rates. An excellent linear relationship (R = 0.997) for 1, log (k/k0) = 0.80YCl + 0.11, and the activation volume,were observed. These values are similar to those for solvolyses of 1-adamantyl halides over the full range of solvents, suggesting that the unimolecular mechanism involving ion pairs is rate-determining. These observations are also compared with those previously reported for the corresponding 1-adamantyl derivatives and chloroformate esters.

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Section: 14supporting

confidence: 92%

Rate and Product Studies with 2-Methyl-2-Chloroadamantane under Solvolytic Conditions

Lee¹,

Seong²,

Lee³

et al. 2010

Bulletin of the Korean Chemical Society

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“…For example, in carbenium ion S N reactions, the magnitude of the KIE is strongly dependent on the stereochemistry of the developing carbenium ion in the transition state. Shiner and coworkers 51,54,55 found that the magnitude of the KIE is reduced from 1.30/ b-D when the dihedral angle between the C b -H bond and the empty 2p atomic orbital on the a-carbon in the transition state is 08 to 1.07/ b-D when the dihedral angle is 308, to only 1.01/ b-D when the dihedral angle is 608 and is inverse at 0.99 when the dihedral angle is 908. This is not a serious problem, however, because small b-deuterium KIEs are only found in the carbenium ion reactions of bicyclic and other sterically crowded systems where free rotation about the C a -C b bonds is restricted.…”

Section: Secondary B-deuterium Kiesmentioning

confidence: 99%

Determining transition state structure using kinetic isotope effects

Westaway

2007

Labelled Comp Radiopharmac

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Kinetic isotope effects (KIEs) have been found to be the most powerful tool available to physical organic chemists for determining the mechanism of reactions and for estimating the structure of their transition states. Various types of KIEs including primary-leaving group-, nucleophile-, and a-carbon KIEs and secondary alpha-and beta-deuterium KIEs are introduced. The factors that affect the magnitude of each of these KIEs are covered in some detail. Finally, the use of these KIEs to determine the mechanism of a reaction and to estimate the structure of the transition state for a reaction is discussed.

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“…34 For example, a linear free energy relationship between the logarithms of the a-CH3/H and a-CH3/CD3 rate ratios has been shown to exist by Shiner, Sunko, and co-workers for a number of solvolysis reactions. 35 This correlation is apparently a manifestation of the predominant importance of hyperconjugative interactions in both the methyl effect and the /3-deuterium kinetic isotope effect. Establishment of correlations of this type is useful, because deviations then become mechanistically significant.…”

Section: Discussionmentioning

confidence: 99%

Remote secondary deuterium kinetic isotope effects as a probe of steric strain in the solvolysis of tertiary alkyl carbinyl systems

Badger¹,

Fry²

1979

J. Am. Chem. Soc.

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Methyl-d3 isotope effects, .alpha.-methyl hydrogen rate effects, and the analysis of some solvolytic reaction mechanisms

Cited by 23 publications

References 6 publications

Rate and Product Studies with 2-Methyl-2-Chloroadamantane under Solvolytic Conditions

Rate and Product Studies with 2-Methyl-2-Chloroadamantane under Solvolytic Conditions

Determining transition state structure using kinetic isotope effects

Remote secondary deuterium kinetic isotope effects as a probe of steric strain in the solvolysis of tertiary alkyl carbinyl systems

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