Broadband Multiple-Quantum NMR Spectroscopy

Journal of Magnetic Resonance, Series A Pub Date : 1996-10-01 DOI:10.1006/jmra.1996.0197

M. Feike, D.E. Demco, R. Graf, J. Gottwald, S. Hafner, H.W. Spiess

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引用次数: 352

Abstract

A simple broadband radiofrequency pulse sequence for the excitation of multiple-quantum coherences in the presence of fast magic-angle spinning is introduced. This sequence involves back-to-back (BABA) 90° radiofrequency pulse cycles timed to span two rotor periods. It proved to be robust and insensitive to off-resonance effects, to isotropic chemical shifts, and to chemical-shift anisotropies. This is demonstrated on crystalline phosphates, composed ofQ⁽¹⁾,Q⁽²⁾, andQ⁽³⁾groups, which are characterized by a large chemical-shift anisotropy spanning more than 200 ppm. With these experiments,³¹P high-resolution double-quantum NMR spectroscopy is introduced as a tool for the direct investigation of dipolar connectivities between like or differentQ⁽ⁿ⁾units in phosphates.³¹P dipolar connectivities in two samples, Mg₂P₂O₇and MgP₄O₁₁were established. Therefore, double-quantum spectroscopy of this kind has potential for the investigation of disordered solids, for instance, phosphorus glasses.

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宽带多量子核磁共振波谱

介绍了一种用于在快速魔角自旋下激发多量子相干的简单宽带射频脉冲序列。该序列涉及背靠背(BABA) 90°射频脉冲周期定时跨越两个转子周期。事实证明，它对非共振效应、各向同性化学位移和化学位移各向异性具有鲁棒性和不敏感性。这在由Q(1)、Q(2)和Q(3)基团组成的结晶磷酸盐上得到了证明，其特征是化学位移各向异性大于200ppm。通过这些实验，引入了31P高分辨率双量子核磁共振波谱，作为直接研究磷酸盐中相似或不同q (n)单元之间偶极连通性的工具。在mg2p2o7和mgp4o11两种样品中建立了31P偶极连接。因此，这种双量子光谱学在无序固体，例如磷玻璃的研究中具有潜力。

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Journal of Magnetic Resonance, Series A

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