在多维核磁共振实验中最小化射频加热的影响。

Minimizing the effects of radio-frequency heating in multidimensional NMR experiments.

作者信息

Wang A C, Bax A

机构信息

Laboratory of Chemical Physics, National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health, Bethesda, MD 20892.

出版信息

J Biomol NMR. 1993 Nov;3(6):715-20. doi: 10.1007/BF00198374.

DOI:10.1007/BF00198374

PMID:8111234

Abstract

Application of radio-frequency power in multidimensional NMR experiments can significantly increase the sample temperature compared to that of the surrounding gas flow. Radio-frequency heating effects become more severe at higher magnetic field strengths and ionic strengths. The effects are particularly noticeable for experiments that utilize 1H and/or 13C isotropic mixing and broadband decoupling. If radio-frequency power is applied during the systematically increasing evolution period t1, the sample temperature can change with t1 and thereby cause line-shape distortions. Such distortions are easily avoided by ensuring that the average radio-frequency power remains constant during the entire experiment.

摘要

与周围气流相比，在多维核磁共振实验中施加射频功率会显著提高样品温度。在更高的磁场强度和离子强度下，射频加热效应会变得更加严重。对于利用1H和/或13C各向同性混合以及宽带去耦的实验，这些效应尤为明显。如果在系统增加的演化期t1期间施加射频功率，样品温度会随t1变化，从而导致线形失真。通过确保在整个实验过程中平均射频功率保持恒定，很容易避免这种失真。

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在多维核磁共振实验中最小化射频加热的影响。

Minimizing the effects of radio-frequency heating in multidimensional NMR experiments.

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