Selective proton observed heteronuclear dipolar modulated chemical shift spectra in solids

switched-angle sample spinning (SASS) (13); however, this By comparing experimental and calculated two-dimenis limited to situations where the isotropic spectra have only sional anisotropic chemical-shift/heteronuclear dipolar coua few resonances and is technically demanding because of pling [separa

Several recent papers have dealt with the modulation of protonated carbon response intensities in long-range heteronuclear 2D NMR chemical shift correlation spectra. Expressions describing the one-tend modulation of the response intensity of the C-3 methylene resonance of 6,7dimethoxy-3,4dihydroisoq

A modified long-range heteronuclear chemical shift correlation pulse sequence which eliminates modulations of response intensity due to one-bond proton-carbon I'J(CH)] spin couplings is described. The 'decoupling' of one-bond modulation has been accomplished through the use of a bilinear rotational

BIRD pulses have been shown to provide an effective means of decoupling ow-bond modulation of long-range response intensity. It is not possible to optimize the BIRD pulse effectively wben tbere is a range of one-bond coupling constants. To examine the effects of misoptimization of the fixed delays (

Two 2D J-modulated HSQC-based experiments were designed for precise determination of small residual dipolar one-bond carbon-proton coupling constants in (13)C natural abundance carbohydrates. Crucial to the precision of a few hundredths of Hz achieved by these methods was the use of long modulation