Heteronuclear cross-relaxation effect modulated by the dynamics of N-functional groups in the solid state under 15N DP-MAS DNP #DNPNMR

Published: Wednesday, 15 July 2020 - 14:00 UTC

Author:

Park, Heeyong, Boran Uluca-Yazgi, Saskia Heumann, Robert Schlögl, Josef Granwehr, Henrike Heise, and P. Philipp M. Schleker. “Heteronuclear Cross-Relaxation Effect Modulated by the Dynamics of N-Functional Groups in the Solid State under 15N DP-MAS DNP.” Journal of Magnetic Resonance 312 (March 2020): 106688.

https://doi.org/10.1016/j.jmr.2020.106688

In a typical magic-angle spinning (MAS) dynamic nuclear polarization (DNP) nuclear magnetic resonance (NMR) experiment, several mechanisms are simultaneously involved when transferring much larger polarization of electron spins to NMR active nuclei of interest. Recently, specific cross-relaxation enhancement by active motions under DNP (SCREAM-DNP) [Daube et al. JACS 2016] has been reported as one of these mechanisms. Thereby 13C enhancement with inverted sign was observed in a direct polarization (DP) MAS DNP experiment, caused by reorientation dynamics of methyl that was not frozen out at 100 K. Here, we report on the spontaneous polarization transfer from hyperpolarized 1H to both primary amine and ammonium nitrogens, resulting in an additional positive signal enhancement in the 15N NMR spectra during 15N DP-MAS DNP. The cross-relaxation induced signal enhancement (CRE) for 15N is of opposite sign compared to that observed for 13C due to the negative sign of the gyromagnetic ratio of 15N. The influence on CRE efficiency caused by variation of the radical solution composition and by temperature was also investigated.