Biradical rotamer states tune electron J coupling and MAS dynamic nuclear polarization enhancement

旋转 电子顺磁共振 耦合 化学 构象异构 磁偶极-偶极相互作用 分子物理学 联轴节(管道) 电子 去相 魔角纺纱 残留偶极耦合 原子物理学 化学物理 偶极子 凝聚态物理 核磁共振 物理 分子 核磁共振波谱 材料科学 量子力学 立体化学 有机化学 冶金
作者
Kan Tagami,Asif Equbal,Ilia Kaminker,Bernard Kirtman,Songi Han
出处
期刊:Solid State Nuclear Magnetic Resonance [Elsevier BV]
卷期号:101: 12-20 被引量:13
标识
DOI:10.1016/j.ssnmr.2019.04.002
摘要

Cross Effect (CE) Dynamic Nuclear Polarization (DNP) relies on the dipolar (D) and exchange (J) coupling interaction between two electron spins. Until recently only the electron spin D coupling was explicitly included in quantifying the DNP mechanism. Recent literature discusses the potential role of J coupling in DNP, but does not provide an account of the distribution and source of electron spin J coupling of commonly used biradicals in DNP. In this study, we quantified the distribution of electron spin J coupling in AMUPol and TOTAPol biradicals using a combination of continuous wave (CW) X-band electron paramagnetic resonance (EPR) lineshape analysis in a series of solvents and at variable temperatures in solution - a state to be vitrified for DNP. We found that both radicals show a temperature dependent distribution of J couplings, and the source of this distribution to be conformational dynamics. To qualify this conformational dependence of J coupling in both molecules we carry out Broken Symmetry DFT calculations which show that the biradical rotamer distribution can account for a large distribution of J couplings, with the magnitude of J coupling directly depending on the relative orientation of the electron spin pair. We demonstrate that the electron spin J couplings in both AMUPol and TOTAPol span a much wider distribution than suggested in the literature. We affirm the importance of electron spin J coupling for DNP with density matrix simulations of DNP in Liouville space and under magic angle spinning, showcasing that a rotamer with high J coupling and optimum relative g-tensor orientation can significantly boost the DNP performance compared to random orientations of the electron spin pair. We conclude that moderate electron spin J coupling above a threshold value can facilitate DNP enhancements.

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