A heuristic model of damped quantum rotation effects in nuclear magnetic resonance spectra

Abstract: The damped quantum rotation (DQR) theory describes temperature effects in NMR spectra of hindered molecular rotators composed of identical atoms arranged in regular N-gons. In the standard approach, the relevant coherent dynamics are described quantum mechanically and the stochastic, thermally activated motions classically. The DQR theory is consistent. In place of random jumps over one, two, etc., maxima of the hindering potential, here one has damping processes of certain long-lived coherences between spin-s… Show more

“…For an internal rotor as light as a vinyl group and for so low rotational barriers (Figure ), this is only a crude approximation. Consequently, in the case in hand, one may expect that rovibrational effects modify values of the involved NMR parameters. − These effects can also be responsible for the previously observed deviations of δ­(H11), δ­(C11), and δ­(C12) from the regression lines and for apparently enhanced contribution of /2 and/3 orientations of the vinyl group.…”

Conformational Equilibrium of Cinchonidine in C₆D₁₂ Solution. Alternative NMR/DFT Approach

“…For an internal rotor as light as a vinyl group and for so low rotational barriers (Figure ), this is only a crude approximation. Consequently, in the case in hand, one may expect that rovibrational effects modify values of the involved NMR parameters. − These effects can also be responsible for the previously observed deviations of δ­(H11), δ­(C11), and δ­(C12) from the regression lines and for apparently enhanced contribution of /2 and/3 orientations of the vinyl group.…”

Conformational Equilibrium of Cinchonidine in C₆D₁₂ Solution. Alternative NMR/DFT Approach

Synthesis and structural characterization of exemplary silyl triptycenes

Erratum: “Theory of damped quantum rotation in NMR spectra. I. Fundamental aspects” [J. Chem. Phys. 123, 204509 (2005)]