2003
DOI: 10.1007/978-1-4757-5166-6_4
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Quantum Effects in Deuterium Labelled Radicals at Low Temperature

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Cited by 4 publications
(7 citation statements)
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“…Some computational and experimental data are available also for alkyl-substituted cyclohexane radical cations. [947][948][949][950][951] Cycloalkane functionalization via radical cations was developed in solution. 952,953 For instance, cyclohexyl-benzene-1,2,4-tricarbonitrile was obtained in 80% yield after SET oxidation of cyclohexane with photoexcited TCB (Scheme 25).…”
Section: Medium-sized Cycloalkanesmentioning
confidence: 99%
See 1 more Smart Citation
“…Some computational and experimental data are available also for alkyl-substituted cyclohexane radical cations. [947][948][949][950][951] Cycloalkane functionalization via radical cations was developed in solution. 952,953 For instance, cyclohexyl-benzene-1,2,4-tricarbonitrile was obtained in 80% yield after SET oxidation of cyclohexane with photoexcited TCB (Scheme 25).…”
Section: Medium-sized Cycloalkanesmentioning
confidence: 99%
“…The cyclohexane radical cation is C 2 h -symmetric with two long C−C bonds; the C s starting structure converges to C 2 h during the optimization 919 (Figure ). Some computational and experimental data are available also for alkyl-substituted cyclohexane radical cations.
19 Structures of cyclopentane and cyclohexane radical cations at B3LYP/6-111G( d , p )
…”
Section: 23 Medium-sized Cycloalkanesmentioning
confidence: 99%
“…In the absence of distortions due to second-order effects, the JT potential energy surface on which these two states are located should show three equivalent minima and three equivalent transition states interconnecting them, all of C 2 v symmetry . UHF/6-31G** geometry optimizations in C 2 v predicted the 2 A 2 state to be slightly more stable than its 2 B 1 counterpart, , which led the authors of this study to suggest that the effective D 3 h symmetry and the coupling to six equivalent protons observed in the ESR spectrum at 4 K are brought about by averaging of three equivalent 2 A 2 structures. For these structures, INDO calculations yielded 1 H hyperfine-coupling constants a H of +0.20 mT for the two methylene α-protons at C-3 and −1.37 mT ( endo )/−1.44 mT ( exo ) for the two pairs of such protons at C-1 and C-2. , Conversely, the corresponding a H values for the 2 B 1 structure were predicted as −1.99 mT for the two protons at C-3 and −0.35 mT ( endo )/−0.29 mT ( exo ) for those at C-1 and C-2.…”
Section: Calculations and Discussionmentioning
confidence: 79%
“…The corresponding radical cation (TMM •+ ) is a 3π-electron system, in which the bonding MO ψ 1 is doubly occupied and the unpaired electron is shared by the NBMOs ψ 2+ and ψ 2 - ;i.e., TMM •+ has a degenerate ground state subject to Jahn−Teller (JT) distortion. , The first attempts to observe the ESR spectrum of TMM •+ after γ-irradiation of methylenecyclopropane (MCP) in CFCl 3 , CF 3 CCl 3 , and CF 2 ClCFCl 2 matrices at 77 K had failed, and only the spectra of the triplet TMM •• ,6a and a few other, not fully identified species were detected. , Eventually, use of CF 2 ClCF 2 Cl or perfluorinated methylcyclohexane (CF 3 -c-C 6 F 11 ) as matrix led to an ESR spectrum consistent with that expected for TMM •+ . This spectrum exhibits seven lines spaced by 0.93 mT with a binomial distribution of intensities, which indicates an effective D 3 h symmetry.…”
Section: Introductionmentioning
confidence: 99%
“…The temperature dependence of the spectra was successfully explained in terms of nuclear spin-rotation couplings using a three-dimensional free quantum-rotor model. That is, applying the Pauli principle the A 1 -lines with the 1:1:1:1 quartet of the CH 3 radical was attributed to the four totally symmetric A 1 nuclear spin states coupled with the rotational ground state, J = 0, in D 3 symmetry. , On the other hand, the E -lines were attributed to the nuclear spin states coupled with the J = 1 rotational state. , Furthermore, the interesting abnormal intensities observed for the D-labeled methyl radicals, CH 2 D, CHD 2 , and CD 3 , and their temperature dependences were fully analyzed by the nuclear spin-rotation couplings …”
Section: Resultsmentioning
confidence: 97%