Heteronuclear correlations by multiple-quantum evolution. II. Proton-proton "decoupling" and multiplicity labeling in a constant-time experiment using carbon detection

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Abstract

Modified Müller-Bolton type heteronuclear multiple-quantum correlation experiments are analyzed theoretically and experimentally. It is shown that the constant-time version offers homonuclear decoupling, multiplicity labeling, and a very efficient suppression of strong coupling artifacts. Such sequences may have advantages for studying macromolecules.

Original languageEnglish
Pages (from-to)553-561
Number of pages9
JournalJournal of Magnetic Resonance (1969)
Volume89
Issue number3
DOIs
Publication statusPublished - Oct 1 1990

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macromolecules
decoupling
time constant
marking
artifacts
retarding
protons
carbon

Cite this

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title = "Heteronuclear correlations by multiple-quantum evolution. II. Proton-proton {"}decoupling{"} and multiplicity labeling in a constant-time experiment using carbon detection",
abstract = "Modified M{\"u}ller-Bolton type heteronuclear multiple-quantum correlation experiments are analyzed theoretically and experimentally. It is shown that the constant-time version offers homonuclear decoupling, multiplicity labeling, and a very efficient suppression of strong coupling artifacts. Such sequences may have advantages for studying macromolecules.",
author = "G. Batta and K. K{\"o}v{\'e}r",
year = "1990",
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AU - Batta, G.

AU - Kövér, K.

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N2 - Modified Müller-Bolton type heteronuclear multiple-quantum correlation experiments are analyzed theoretically and experimentally. It is shown that the constant-time version offers homonuclear decoupling, multiplicity labeling, and a very efficient suppression of strong coupling artifacts. Such sequences may have advantages for studying macromolecules.

AB - Modified Müller-Bolton type heteronuclear multiple-quantum correlation experiments are analyzed theoretically and experimentally. It is shown that the constant-time version offers homonuclear decoupling, multiplicity labeling, and a very efficient suppression of strong coupling artifacts. Such sequences may have advantages for studying macromolecules.

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JO - Journal of Magnetic Resonance (1969)

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