5 years ago

Efficient conversion of anti-phase spin order of protons into 15N magnetization using SLIC-SABRE.

Konstantin L. Ivanov, Alexandra V. Yurkovskaya, Alexey S. Kiryutin, Stephan Knecht

SABRE (Signal Amplification By Reversible Exchange) is a technique for enhancement of NMR (Nuclear Magnetic Resonance) signals, which utilizes parahydrogen (pH2, the H2 molecule in its nuclear spin state) as a source of non-thermal spin order. In SABRE experiments, pH2 binds to an organometallic complex with a to-be-polarized substrate; subsequently, spin order transfer takes place and the substrate acquires non-thermal spin polarization resulting in strong NMR signal enhancement. In this work we argue that the spin order of H2 in SABRE experiments performed at high magnetic fields is not necessarily the singlet order but rather anti-phase polarization, $S_{1z}S_{2z}$. Although SABRE exploits pH2, i.e., the starting spin order of H2 is supposed to be the singlet order, in solution S-T0 conversion becomes efficient once pH2 binds to a complex. Such a variation of the spin order, which becomes $S_{1z}S_{2z}$, has an important consequence: NMR methods used for transferring SABRE polarization need to be modified. Here we demonstrate that methods proposed for the initial singlet order may not work for the S_1z S_2z order; however, a simple modification makes them efficient again. A theoretical treatment of the problem under consideration is proposed; these considerations are supported by high-field SABRE experiments. Hence, for efficient use of SABRE one should note that polarization formation is a complex multi-stage process: careful optimization of this process may not only deal with chemical aspects but also with the spin dynamics, including the spin dynamics of H2.

Publisher URL: http://arxiv.org/abs/1802.04471

DOI: arXiv:1802.04471v1

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