Multiple-pulse and magic-angle spinning aided double-quantum proton solid-state NMR spectroscopy

P. K. Madhu; Elena Vinogradov; Shimon Vega

doi:10.1016/j.cplett.2004.07.034

Multiple-pulse and magic-angle spinning aided double-quantum proton solid-state NMR spectroscopy

P. K. Madhu, Elena Vinogradov, Shimon Vega

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Abstract

We here report on a high-resolution pulse scheme for double-quantum (DQ) proton NMR spectroscopy in the solid-state. The pulse scheme employs a combination of multiple-pulses and magic-angle spinning (MAS) for both the excitation and conversion of DQ coherences and their evolution under homonuclear dipolar decoupling. This is made possible in this two-dimensional experiment by an effective combination of homonuclear dipolar decoupling method of phase modulated Lee-Goldburg and symmetry adapted sequence for homonuclear dipolar recoupling under MAS. DQ spectra of monoethyl fumaric acid, glycine, and histidine are presented to highlight the utility of the pulse scheme together with some of the existing drawbacks.

Original language	English (US)
Pages (from-to)	423-428
Number of pages	6
Journal	Chemical Physics Letters
Volume	394
Issue number	4-6
DOIs	https://doi.org/10.1016/j.cplett.2004.07.034
State	Published - Aug 21 2004

ASJC Scopus subject areas

General Physics and Astronomy
Physical and Theoretical Chemistry

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title = "Multiple-pulse and magic-angle spinning aided double-quantum proton solid-state NMR spectroscopy",

abstract = "We here report on a high-resolution pulse scheme for double-quantum (DQ) proton NMR spectroscopy in the solid-state. The pulse scheme employs a combination of multiple-pulses and magic-angle spinning (MAS) for both the excitation and conversion of DQ coherences and their evolution under homonuclear dipolar decoupling. This is made possible in this two-dimensional experiment by an effective combination of homonuclear dipolar decoupling method of phase modulated Lee-Goldburg and symmetry adapted sequence for homonuclear dipolar recoupling under MAS. DQ spectra of monoethyl fumaric acid, glycine, and histidine are presented to highlight the utility of the pulse scheme together with some of the existing drawbacks.",

author = "Madhu, {P. K.} and Elena Vinogradov and Shimon Vega",

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doi = "10.1016/j.cplett.2004.07.034",

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T1 - Multiple-pulse and magic-angle spinning aided double-quantum proton solid-state NMR spectroscopy

AU - Madhu, P. K.

AU - Vinogradov, Elena

AU - Vega, Shimon

N1 - Funding Information: This research project was supported by The Minerva Foundation.

PY - 2004/8/21

Y1 - 2004/8/21

N2 - We here report on a high-resolution pulse scheme for double-quantum (DQ) proton NMR spectroscopy in the solid-state. The pulse scheme employs a combination of multiple-pulses and magic-angle spinning (MAS) for both the excitation and conversion of DQ coherences and their evolution under homonuclear dipolar decoupling. This is made possible in this two-dimensional experiment by an effective combination of homonuclear dipolar decoupling method of phase modulated Lee-Goldburg and symmetry adapted sequence for homonuclear dipolar recoupling under MAS. DQ spectra of monoethyl fumaric acid, glycine, and histidine are presented to highlight the utility of the pulse scheme together with some of the existing drawbacks.

AB - We here report on a high-resolution pulse scheme for double-quantum (DQ) proton NMR spectroscopy in the solid-state. The pulse scheme employs a combination of multiple-pulses and magic-angle spinning (MAS) for both the excitation and conversion of DQ coherences and their evolution under homonuclear dipolar decoupling. This is made possible in this two-dimensional experiment by an effective combination of homonuclear dipolar decoupling method of phase modulated Lee-Goldburg and symmetry adapted sequence for homonuclear dipolar recoupling under MAS. DQ spectra of monoethyl fumaric acid, glycine, and histidine are presented to highlight the utility of the pulse scheme together with some of the existing drawbacks.

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VL - 394

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EP - 428

JO - Chemical Physics Letters

JF - Chemical Physics Letters

IS - 4-6

ER -

Multiple-pulse and magic-angle spinning aided double-quantum proton solid-state NMR spectroscopy

Abstract

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