Low-power broadband homonuclear dipolar recoupling in MAS NMR by two-fold symmetry pulse schemes for magnetization transfers and double-quantum excitation
Number of Authors: 32015 (English)In: Journal of magnetic resonance, ISSN 1090-7807, E-ISSN 1096-0856, Vol. 261, p. 205-220Article in journal (Refereed) Published
Abstract [en]
We provide an experimental, numerical, and high-order average Hamiltonian evaluation of an open-ended series of homonuclear dipolar recoupling sequences, SR2(2p)(1), with p = 1, 2,3, .... While operating at a very low radio-frequency (rf) power, corresponding to a nutation frequency of 1/2 of the magic-angle spinning (MAS) rate (omega(nut) = omega(r)/2), these recursively generated double-quantum (2Q) dipolar recoupling schemes offer a progressively improved compensation to resonance offsets and rf inhomogeneity for increasing pulse-sequence order p. The excellent recoupling robustness to these experimental obstacles, as well as to CSA, is demonstrated for 2Q filtering (2QF) experiments and for driving magnetization transfers in 2D NMR correlation spectroscopy, where the sequences may provide either double or zero quantum dipolar Hamiltonians during mixing. Experimental and numerical demonstrations, which mostly target conditions of ultra-fast MAS (greater than or similar to 50 kHz) and high magnetic fields, are provided for recoupling of C-13 across a wide range of isotropic and anisotropic chemical shifts, as well as dipolar coupling constants, encompassing [2,3-C-13(2)]alanine, [1,3-C-13(2)]alanine, diammonium [1,4-C-13(2)]fumarate, and [U-C-13]tyrosine. When compared at equal power levels, a superior performance is observed for the SR2(2p)(1) sequences with p >= 3 relative to existing and well-established 2Q recoupling techniques. At ultra-fast MAS, proton decoupling is redundant during the homonuclear dipolar recoupling of dilute spins in organic solids, which renders the family of SR2(2p)(1) schemes the first efficient 2Q recoupling option for general applications, such as 2Q-1Q correlation NMR and high-order multiple-quantum excitation, under truly low-power rf conditions.
Place, publisher, year, edition, pages
2015. Vol. 261, p. 205-220
Keywords [en]
Double-quantum coherence, Homonuclear recoupling, Magic-angle spinning, Symmetry-based pulse sequences, Low-power recoupling, Average Hamiltonian theory
National Category
Biological Sciences Physical Sciences Other Engineering and Technologies
Identifiers
URN: urn:nbn:se:su:diva-125791DOI: 10.1016/j.jmr.2015.09.004ISI: 000367212100027PubMedID: 26515279OAI: oai:DiVA.org:su-125791DiVA, id: diva2:897620
2016-01-262016-01-182022-02-23Bibliographically approved