An Investigation of the Sample Rotation Effects on Suppression of Convective Flows in PGSE Diffusion NMR Experiments

IF 0.4 Q4 BIOCHEMICAL RESEARCH METHODS
Minkyoung Kim, Kee-Choo Chung
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引用次数: 0

Abstract

Undesirable convective flow in an NMR tube inhibits the accurate measurement of diffusion coefficients by NMR spectroscopy. To minimize the convection effects, various methods have been suggested, and it has been known that the use of sample rotation can be useful. However, it has not been clearly examined that the convection suppressing effect of the sample rotation under the different spinning speeds. In this study, the relation between convective flow and the sample rotation was investigated using PGSE NMR diffusion experiments to reveal the feasibility for controlling the convective flow in an NMR tube by sample rotation itself. The viscosity effect was also examined using solvents with four different viscosities, acetone-d6 chloroform-d, pyridine-d5, and D2O. The sample rotation showed apparent convection suppressing effects at all temperature range for the low viscosity solvents, acetone-d6 and chloroform-d, even at the faster than 5 Hz spinning rate. The similar patterns were also observed for pyridine-d5 and D2O, which have higher viscosity. This effect was observed even at high temperatures where convective flow arises conspicuously.
PGSE扩散核磁共振实验中样品旋转对对流抑制效应的研究
核磁共振管中不理想的对流阻碍了核磁共振波谱法精确测量扩散系数。为了最小化对流效应,已经提出了各种方法,并且已经知道使用样本旋转是有用的。然而,在不同的旋转速度下,样品旋转对对流的抑制作用尚未得到明确的研究。本研究利用PGSE核磁共振扩散实验研究了对流流动与样品旋转之间的关系,揭示了通过样品本身旋转来控制核磁共振管内对流流动的可行性。用丙酮-d6、氯仿-d、吡啶-d5和D2O四种不同粘度的溶剂考察了粘度效应。低粘度溶剂丙酮-d6和氯仿-d在所有温度范围内均表现出明显的对流抑制作用,即使转速高于5 Hz。对于黏度较高的吡啶-d5和D2O,也观察到类似的规律。即使在对流流动明显出现的高温下,也能观察到这种效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of the Korean magnetic resonance society
Journal of the Korean magnetic resonance society BIOCHEMICAL RESEARCH METHODS-
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