Double-quantum NMR spectroscopy of 31P species submitted to very large CSAs

B. Hu; L. Delevoye; O. Lafon; J. Trébosc; J. P. Amoureux

doi:10.1016/j.jmr.2009.06.020

Double-quantum NMR spectroscopy of ³¹P species submitted to very large CSAs

B. Hu, L. Delevoye, O. Lafon, J. Trébosc, J. P. Amoureux

Université de Lille

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

We introduce an original pulse sequence, BR 2₂¹ (τ π τ), which is a block super-cycled R 2₂¹ sequence employing as basic element a π pulse sandwiched by 'window' intervals. This homonuclear dipolar recoupling method allows the efficient excitation of double-quantum coherences between spin-1/2 nuclei submitted to very large chemical shift anisotropy. We demonstrate that this technique can be employed in double-quantum ↔ single-quantum ³¹P homonuclear correlation experiment at high magnetic field (B₀ ≥ 14 T) and high MAS frequencies (ν_R ≥ 30 kHz). The performances of BR 2₂¹ (τ π τ) are compared to those of the double-quantum recoupling methods, such as BABA and bracketed fp-RFDR, which were already employed at fast MAS rates. The BR 2₂¹ (τ π τ) sequence displays a higher robustness to CSA and offset than the other existing techniques.

Original language	English
Pages (from-to)	178-188
Number of pages	11
Journal	Journal of Magnetic Resonance
Volume	200
Issue number	2
DOIs	https://doi.org/10.1016/j.jmr.2009.06.020
State	Published - Oct 2009
Externally published	Yes

Keywords

Double-quanta
Large CSA
Phosphorous atoms
Solid-state NMR

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10.1016/j.jmr.2009.06.020

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title = "Double-quantum NMR spectroscopy of 31P species submitted to very large CSAs",

abstract = "We introduce an original pulse sequence, BR 221 (τ π τ), which is a block super-cycled R 221 sequence employing as basic element a π pulse sandwiched by 'window' intervals. This homonuclear dipolar recoupling method allows the efficient excitation of double-quantum coherences between spin-1/2 nuclei submitted to very large chemical shift anisotropy. We demonstrate that this technique can be employed in double-quantum ↔ single-quantum 31P homonuclear correlation experiment at high magnetic field (B0 ≥ 14 T) and high MAS frequencies (νR ≥ 30 kHz). The performances of BR 221 (τ π τ) are compared to those of the double-quantum recoupling methods, such as BABA and bracketed fp-RFDR, which were already employed at fast MAS rates. The BR 221 (τ π τ) sequence displays a higher robustness to CSA and offset than the other existing techniques.",

keywords = "Double-quanta, Large CSA, Phosphorous atoms, Solid-state NMR",

author = "B. Hu and L. Delevoye and O. Lafon and J. Tr{\'e}bosc and Amoureux, \{J. P.\}",

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T1 - Double-quantum NMR spectroscopy of 31P species submitted to very large CSAs

AU - Hu, B.

AU - Delevoye, L.

AU - Lafon, O.

AU - Trébosc, J.

AU - Amoureux, J. P.

PY - 2009/10

Y1 - 2009/10

N2 - We introduce an original pulse sequence, BR 221 (τ π τ), which is a block super-cycled R 221 sequence employing as basic element a π pulse sandwiched by 'window' intervals. This homonuclear dipolar recoupling method allows the efficient excitation of double-quantum coherences between spin-1/2 nuclei submitted to very large chemical shift anisotropy. We demonstrate that this technique can be employed in double-quantum ↔ single-quantum 31P homonuclear correlation experiment at high magnetic field (B0 ≥ 14 T) and high MAS frequencies (νR ≥ 30 kHz). The performances of BR 221 (τ π τ) are compared to those of the double-quantum recoupling methods, such as BABA and bracketed fp-RFDR, which were already employed at fast MAS rates. The BR 221 (τ π τ) sequence displays a higher robustness to CSA and offset than the other existing techniques.

AB - We introduce an original pulse sequence, BR 221 (τ π τ), which is a block super-cycled R 221 sequence employing as basic element a π pulse sandwiched by 'window' intervals. This homonuclear dipolar recoupling method allows the efficient excitation of double-quantum coherences between spin-1/2 nuclei submitted to very large chemical shift anisotropy. We demonstrate that this technique can be employed in double-quantum ↔ single-quantum 31P homonuclear correlation experiment at high magnetic field (B0 ≥ 14 T) and high MAS frequencies (νR ≥ 30 kHz). The performances of BR 221 (τ π τ) are compared to those of the double-quantum recoupling methods, such as BABA and bracketed fp-RFDR, which were already employed at fast MAS rates. The BR 221 (τ π τ) sequence displays a higher robustness to CSA and offset than the other existing techniques.

KW - Double-quanta

KW - Large CSA

KW - Phosphorous atoms

KW - Solid-state NMR

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DO - 10.1016/j.jmr.2009.06.020

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JF - Journal of Magnetic Resonance

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ER -

Double-quantum NMR spectroscopy of ³¹P species submitted to very large CSAs

Abstract

Keywords

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