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Heteronuclear Two-bond Correlation: Suppressing Heteronuclear Three-bond or Higher NMR Correlations While Enhancing Two-bond Correlations Even for Vanishing 2J(CH)

Overview
Journal J Am Chem Soc
Publisher American Chemical Society
Specialty Chemistry
Date 2005 Apr 28
PMID 15853304
Citations 31
Authors
Nils T Nyberg
Jens O Duus
Ole W Sorensen
Affiliations
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Abstract

A novel two-dimensional NMR pulse sequence, H2BC, for long-range correlation of 1H and 13C nuclei is presented. The experiment has several attractive features compared to the widely used HMBC experiment, for example, (a) typically strong enhancement of correlations over two bonds while suppressing those over more bonds, that is, resolving ambiguities in standard HMBC spectra and showing two-bond correlations not present in HMBC spectra, (b) independence of long-range 1H-13C coupling constants, (c) full homo- and heteronuclear decoupling in the indirect dimension and heteronuclear decoupling in the acquisition dimension, (d) pure 2D absorption peak shapes, and (e) a pulse sequence duration significantly shorter than that of HMBC. The experiment is quite complementary to HMBC and does not effect correlations to quaternary carbons that must be obtained by HMBC.

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