4.3 Article

Barriers to resolution in 1H NMR of rotating solids

期刊

JOURNAL OF MAGNETIC RESONANCE
卷 355, 期 -, 页码 -

出版社

ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.jmr.2023.107557

关键词

Solid-state NMR; Magic angle spinning; 1 H resolution; Magnetic susceptibility; Chemical disorder; Organic solids

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The role of 1H solid-state NMR in structure elucidation of solids is becoming more important, especially with the availability of faster magic-angle spinning rates (MAS) which improve 1H detected assignment strategies. However, the current 1H spectral resolution is still relatively low. This study investigates the factors limiting proton linewidths and line shapes in MAS experiments with five different samples and identifies the different contributions through one-and two-dimensional experiments.
The role of 1H solid-state NMR in structure elucidation of solids is becoming more preponderant, particularly as faster magic-angle spinning rates (MAS) become available which improve 1H detected assignment strategies. However, current 1H spectral resolution is still relatively poor, with linewidths of typically a few hundred Hz, even at the fastest rates available today. Here we detail and assess the factors limiting proton linewidths and line shapes in MAS experiments with five different samples, exemplifying the different sources of broadening that affect the residual linewidth. We disentangle the different contributions through one-and two-dimensional ex-periments: by using dilution to identify the contribution of ABMS; by using extensive deuteration to identify the dipolar contributions; and by using variable MAS rates to determine the ratio between homogeneous and inhomogeneous components. We find that the overall widths and the nature of the different contributions to the linewidths can vary very considerably. While we find that faster spinning always yields narrower lines and longer coherence lifetimes, we also find that for some resonances the dipolar contribution is no longer dominant at 100 kHz MAS. When the inhomogeneous sources of broadening, such as ABMS and chemical shift disorder, are dominant, two-dimensional 1H-1H correlation experiments yield better resolution for assignment. Particularly the extraction of the antidiagonal of a 2D peak will remove any correlated inhomogeneous broadening, giving substantially narrower 1H linewidths.

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