4.7 Article

Theory of frequency-selective homonuclear dipolar recoupling in solid-state NMR

期刊

JOURNAL OF CHEMICAL PHYSICS
卷 155, 期 17, 页码 -

出版社

AIP Publishing
DOI: 10.1063/5.0065396

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资金

  1. National Key R&D Program of China [2017YFA0505400]
  2. National Natural Science Foundation of China [21775161, 22074153, 21927801, 31627803, 31770798, 21921004]
  3. Chinese Academy of Sciences [YJKYYQ20190032]

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This study analyzes the average Hamiltonian theory of SPR sequences and reveals the origin of frequency selectivity in recoupling. It demonstrates that frequency selectivity can be easily controlled by the flip angle, leading to either selective or broadband recoupling. The findings shed new light on the design of homonuclear recoupling sequences with arbitrary frequency bandwidths.
In solid-state nuclear magnetic resonance, frequency-selective homonuclear dipolar recoupling is key to quantitative distance measurement or selective enhancement of correlations between atoms of interest in multiple-spin systems, which are not amenable to band-selective or broadband recoupling. Previous frequency-selective recoupling is mostly based on the so-called rotational resonance (R-2) condition that restricts the application to spin pairs with resonance frequencies differing in integral multiples of the magic-angle spinning (MAS) frequency. Recently, we have proposed a series of frequency-selective homonuclear recoupling sequences called SPR (short for Selective Phase-optimized Recoupling), which have been successfully applied for selective H-1-H-1 or C-13-C-13 recoupling under from moderate (& SIM;10 kHz) to ultra-fast (150 kHz) MAS frequencies. In this study, we fully analyze the average Hamiltonian theory of SPR sequences and reveal the origin of frequency selectivity in recoupling. The theoretical description, as well as numerical simulations and experiments, demonstrates that the frequency selectivity can be easily controlled by the flip angle (p) in the (p)(phi k)(p)(phi k+pi) unit in the pSPR-N-n sequences. Small flip angles lead to frequency-selective recoupling, while large flip angles may lead to broadband recoupling in principle. The result shall shed new light on the design of homonuclear recoupling sequences with arbitrary frequency bandwidths.

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