Separating the coherence transfer from chemical shift evolution in high-resolution pure shift COSY NMR

Juan A. Aguilar; Raquel Belda; Benjamin R. Gaunt; Alan M. Kenwright; Ilya Kuprov

doi:10.1002/mrc.4727

Separating the coherence transfer from chemical shift evolution in high-resolution pure shift COSY NMR

Juan A. Aguilar, Raquel Belda, Benjamin R. Gaunt, Alan M. Kenwright, Ilya Kuprov

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

Abstract

Recent developments in data sampling and processing techniques have made it possible to acquire 2-dimensional NMR spectra of small molecules at digital resolutions in both dimensions approaching the intrinsic limitations of the equipment and sample on a realistic timescale. These developments offer the possibility of enormously increased effective resolution (peak dispersion) and the ability to effectively study samples where peak overlap was previously a limiting factor. Examples of such spectra have been produced for a number of 2-dimensional techniques including TOCSY and HSQC. In this paper, we investigate some of the problems in applying such techniques to COSY spectra and suggest a modification to the classic experiment that alleviates some of these problems.

Original language	English
Pages (from-to)	969-975
Number of pages	7
Journal	Magnetic Resonance in Chemistry
Volume	56
Issue number	10
DOIs	https://doi.org/10.1002/mrc.4727
State	Published - Oct 2018
Externally published	Yes

All Science Journal Classification (ASJC) codes

General Chemistry
General Materials Science

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title = "Separating the coherence transfer from chemical shift evolution in high-resolution pure shift COSY NMR",

abstract = "Recent developments in data sampling and processing techniques have made it possible to acquire 2-dimensional NMR spectra of small molecules at digital resolutions in both dimensions approaching the intrinsic limitations of the equipment and sample on a realistic timescale. These developments offer the possibility of enormously increased effective resolution (peak dispersion) and the ability to effectively study samples where peak overlap was previously a limiting factor. Examples of such spectra have been produced for a number of 2-dimensional techniques including TOCSY and HSQC. In this paper, we investigate some of the problems in applying such techniques to COSY spectra and suggest a modification to the classic experiment that alleviates some of these problems.",

author = "Aguilar, {Juan A.} and Raquel Belda and Gaunt, {Benjamin R.} and Kenwright, {Alan M.} and Ilya Kuprov",

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AU - Belda, Raquel

AU - Gaunt, Benjamin R.

AU - Kenwright, Alan M.

AU - Kuprov, Ilya

PY - 2018/10

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AB - Recent developments in data sampling and processing techniques have made it possible to acquire 2-dimensional NMR spectra of small molecules at digital resolutions in both dimensions approaching the intrinsic limitations of the equipment and sample on a realistic timescale. These developments offer the possibility of enormously increased effective resolution (peak dispersion) and the ability to effectively study samples where peak overlap was previously a limiting factor. Examples of such spectra have been produced for a number of 2-dimensional techniques including TOCSY and HSQC. In this paper, we investigate some of the problems in applying such techniques to COSY spectra and suggest a modification to the classic experiment that alleviates some of these problems.

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JO - Magnetic Resonance in Chemistry

JF - Magnetic Resonance in Chemistry

IS - 10

ER -

Separating the coherence transfer from chemical shift evolution in high-resolution pure shift COSY NMR

Abstract

All Science Journal Classification (ASJC) codes

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