A simple and effective binomial block based pulse sequence capable of suppressing multiple NMR signals

Scott A. Willis; Gang Zheng; Allan M. Torres; Timothy Stait-Gardner; William S. Price

doi:10.1021/acs.jpca.8b08160

A simple and effective binomial block based pulse sequence capable of suppressing multiple NMR signals

Scott A. Willis, Gang Zheng, Allan M. Torres, Timothy Stait-Gardner, William S. Price

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

4 Citations (Scopus)

Abstract

A binomial-like block based multiple suppression NMR pulse sequence, termed MULTI-GATE-FSB, that is simple to implement with outstanding suppression performance for multiple solvent signals (or multiple resonances) is investigated. The sequence was tested on two water-alcohol solvent systems, and a standard lysozyme sample, with suppression of three or four regions (though it is extendable to any number of regions). The suppression of all solvent signals was possible in the alcohol-water systems tested with both long and short recycle delays and without the requirement for lengthy presaturation pulses. Such a sequence holds promise not only for LC-NMR applications and solvent suppression but for multiple suppression applications in general (e.g., analysis of impurities/components).

Original language	English
Pages (from-to)	9712-9720
Number of pages	9
Journal	Journal of Physical Chemistry A
Volume	122
Issue number	50
DOIs	https://doi.org/10.1021/acs.jpca.8b08160
Publication status	Published - 20 Dec 2018

Bibliographical note

Publisher Copyright:
© 2018 American Chemical Society.

Keywords

magnetic resonance imaging
nuclear magnetic resonance
solvents

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10.1021/acs.jpca.8b08160

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abstract = "A binomial-like block based multiple suppression NMR pulse sequence, termed MULTI-GATE-FSB, that is simple to implement with outstanding suppression performance for multiple solvent signals (or multiple resonances) is investigated. The sequence was tested on two water-alcohol solvent systems, and a standard lysozyme sample, with suppression of three or four regions (though it is extendable to any number of regions). The suppression of all solvent signals was possible in the alcohol-water systems tested with both long and short recycle delays and without the requirement for lengthy presaturation pulses. Such a sequence holds promise not only for LC-NMR applications and solvent suppression but for multiple suppression applications in general (e.g., analysis of impurities/components).",

keywords = "magnetic resonance imaging, nuclear magnetic resonance, solvents",

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AU - Willis, Scott A.

AU - Zheng, Gang

AU - Torres, Allan M.

AU - Stait-Gardner, Timothy

AU - Price, William S.

PY - 2018/12/20

Y1 - 2018/12/20

N2 - A binomial-like block based multiple suppression NMR pulse sequence, termed MULTI-GATE-FSB, that is simple to implement with outstanding suppression performance for multiple solvent signals (or multiple resonances) is investigated. The sequence was tested on two water-alcohol solvent systems, and a standard lysozyme sample, with suppression of three or four regions (though it is extendable to any number of regions). The suppression of all solvent signals was possible in the alcohol-water systems tested with both long and short recycle delays and without the requirement for lengthy presaturation pulses. Such a sequence holds promise not only for LC-NMR applications and solvent suppression but for multiple suppression applications in general (e.g., analysis of impurities/components).

AB - A binomial-like block based multiple suppression NMR pulse sequence, termed MULTI-GATE-FSB, that is simple to implement with outstanding suppression performance for multiple solvent signals (or multiple resonances) is investigated. The sequence was tested on two water-alcohol solvent systems, and a standard lysozyme sample, with suppression of three or four regions (though it is extendable to any number of regions). The suppression of all solvent signals was possible in the alcohol-water systems tested with both long and short recycle delays and without the requirement for lengthy presaturation pulses. Such a sequence holds promise not only for LC-NMR applications and solvent suppression but for multiple suppression applications in general (e.g., analysis of impurities/components).

KW - magnetic resonance imaging

KW - nuclear magnetic resonance

KW - solvents

UR - http://hdl.handle.net/1959.7/uws:49307

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DO - 10.1021/acs.jpca.8b08160

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VL - 122

SP - 9712

EP - 9720

JO - Journal of Physical Chemistry A

JF - Journal of Physical Chemistry A

IS - 50

ER -

A simple and effective binomial block based pulse sequence capable of suppressing multiple NMR signals

Abstract

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Keywords

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