Postacquisition Signal Enhancement in Selective Measurement of Long-Range Heteronuclear Coupling Constants

A pulsed field gradient version of the sensitivity-enhanced 2D HSQC-TOCSY experiment is proposed for measurement of long-range heteronuclear coupling constants. The coupling constants are obtained by computer-aided analysis of mixed-phase multiplets with and without the heteronuclear splitting. Gene

## Abstract An efficient pulse sequence for measuring long‐range CH coupling constants (__J__~CH~) named selective __J__‐resolved HMBC has been developed by replacing a ^1^H 180° pulse with a selective ^1^H 180° pulse and the HMBC pulse scheme with the constant time (CT) HMBC employed in the __J_

A selective one-dimensional HSQC experiment was used to obtain heteronuclear long-range coupling constants for native and chemically modiÐed cyclodextrins (3,6-anhydro-b-cyclodextrin) and a non-covalent complex of a-cyclodextrin with p-nitrophenol. Selective excitation was performed on C-4 in the a-

A simple pulse sequence in inverse-detection mode is proposed for the detection of heteronuclear long-range couplings. In the resulting 2D heteronuclear multiple-bond correlation (HMBC) spectra, pure-absorptive peak patterns are obtained along both frequency dimensions. Since the heteronuclear coupl