Heteronuclear Correlation Spectroscopy with RF Gradients

## Abstract After a brief theoretical description, new gradient‐selected, proton‐detected heteronuclear correlation sequences are introduced. The gs‐HMBC and gs‐Relayed‐HMQC are closely related to the original gs‐HMQC proposed by Hurd and John. A new approach to obtain pure absorption line shapes i

A gradient-and sensitivity-enhanced HMQC experiment has been developed. The sensitivity of the experiment is increased by factors of ͌ 2 and 2 over the conventional and gradient-enhanced HMQC experiments, respectively. This improvement is achieved by retaining both the x and the y magnetization comp

## Abstract In order to achieve a better suppression of signals arising from protons non‐bonded to the considered heteronucleus, two (π/4) proton pulses are used in the HMQC sequence: one, at the very beginning, replaces the classical (π/2) pulse and the other is at the end of the sequence. In addi

Coherence transfer by an isotropic mixing process is used for two-dimensional heteronuclear shift correlation in magicanple-spin&q solid-state spectroscopy. Selective coherence transfer is conlbiied with efficient homonuclear and hereronuclear dipolar decoupling to obtain well-resolved shift corre!n