Homonuclear Broadband-Decoupled NMR Spectra

A data processing method, based on double integral calculations, to obtain decoupled highresolution NMR spectra in the weak scalar coupling approximation is described. Data are recorded from conventional spin echo experiments using di †erent values of the delay of the echo. The collected echoes are

A new robust approach for combining multiple-pulse homonuclear decoupling and PGSE NMR is introduced for accurately measuring molecular diffusion coefficients in systems with nonvanishing static homonuclear dipolar couplings. Homonuclear decoupling suppresses dipolar dephasing during the gradient pu

The phase-twisted lines, resulting from a double complex Fourier transform, can greatly alter the quality of two-dimensional spectra. This problem, which is generally overcome by experimental procedures (requiring twice as much time as a standard measurement), is inevitable in the two-dimensional J-

A new, edited HMBC experiment is introduced that leads to two subspectra according to the number of protons attached to 13 C nuclei being even or odd, i.e. one subspectrum with C + CH 2 and another with CH + CH 3 . This experiment can be useful for resolving spectral overlap among the typically larg

It is shown that fully J-decoupled homonuclear spectra involving Lorentzian lines can be readily obtained by straightforward processing of the 2D data arising from a conventional spin echo sequence (/2-t 1 /2--t 1 /2-Acq(t 2 )) used in the so-called J-resolved experiment. The method simply rests on