取向静态固态核磁共振波谱中射频加热与样品稳定性分析

Analysis of RF heating and sample stability in aligned static solid-state NMR spectroscopy.

作者信息

Li Conggang, Mo Yiming, Hu Jun, Chekmenev Eduard, Tian Changlin, Gao Fei Philip, Fu Riqiang, Gor'kov Peter, Brey William, Cross Timothy A

机构信息

Department of Chemistry and Biochemistry, Florida State University, Tallahassee, 32310, USA.

出版信息

J Magn Reson. 2006 May;180(1):51-7. doi: 10.1016/j.jmr.2006.01.013. Epub 2006 Feb 17.

DOI:10.1016/j.jmr.2006.01.013

PMID:16483809

Abstract

Sample instability during solid-state NMR experiments frequently arises due to RF heating in aligned samples of hydrated lipid bilayers. A new, simple approach for estimating sample temperature is used to show that, at 9.4 T, sample heating depends mostly on (1)H decoupling power rather than on (15)N irradiation in PISEMA experiments. Such heating for different sample preparations, including lipid composition, salt concentration and hydration level was assessed and the hydration level was found to be the primary parameter correlated with sample heating. The contribution to RF heating from the dielectric loss appears to be dominant under our experimental conditions. The heat generated by a single scan was approximately calculated from the Q values of the probe, to be a 1.7 degrees C elevation per single pulse sequence iteration under typical sample conditions. The steady-state sample temperature during PISEMA experiments can be estimated based on the method presented here, which correlates the loss factor with the temperature rise induced by the RF heating of the sample.

摘要

在固态核磁共振实验中，水合脂质双层排列样品中的射频加热常常导致样品不稳定。一种新的、简单的估计样品温度的方法表明，在9.4 T时，在PISEMA实验中样品加热主要取决于质子去耦功率，而非氮-15辐照。评估了不同样品制备条件下的这种加热情况，包括脂质组成、盐浓度和水合水平，发现水合水平是与样品加热相关的主要参数。在我们的实验条件下，介电损耗对射频加热的贡献似乎占主导地位。根据探头的品质因数大致计算出单次扫描产生的热量，在典型样品条件下，每个单脉冲序列迭代会使温度升高1.7摄氏度。PISEMA实验期间的稳态样品温度可基于此处介绍的方法进行估计，该方法将损耗因子与样品射频加热引起的温度升高相关联。

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取向静态固态核磁共振波谱中射频加热与样品稳定性分析

Analysis of RF heating and sample stability in aligned static solid-state NMR spectroscopy.

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