Protonation tuned dipolar order mediated 1H→13C cross-polarization for dissolution-dynamic nuclear polarization experiments

IF 1.8 3区 化学 Q4 CHEMISTRY, PHYSICAL Solid state nuclear magnetic resonance Pub Date : 2021-12-01 DOI:10.1016/j.ssnmr.2021.101762
Stuart J. Elliott , Quentin Stern, Olivier Cala, Sami Jannin
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Abstract

A strategy of dipolar order mediated nuclear spin polarization transfer has recently been combined with dissolution-dynamic nuclear polarization (dDNP) and improved by employing optimized shaped radiofrequency pulses and suitable molecular modifications. In the context of dDNP experiments, this offers a promising means of transferring polarization from high-gamma 1H spins to insensitive 13C spins with lower peak power and lower energy compared with state-of-the-art cross-polarization schemes. The role of local molecular groups and the glassing matrix protonation level are both postulated to play a key role in the polarization transfer pathway via an intermediary reservoir of dipolar spin order. To gain appreciation of the mechanisms involved in the dipolar order mediated polarization transfer under dDNP conditions, we investigate herein the influence of the pivotal characteristics of the sample makeup: (i) revising the protonation level for the constituents of the DNP glass; and (ii) utilizing deuterated molecular derivatives. Experimental demonstrations are presented for the case of [1–13C]sodium acetate. We find that the proton sample molarity has a large impact on both the optimal parameters and the performance of the dipolar order mediated cross-polarization sequence, with the 13C signal build-up time drastically shortened in the case of high solvent protonation levels. In the case of a deuterated molecular derivative, we observe that the nearby 2H substituted methyl group is deleterious to the 1H→13C transfer phenomenon (particularly at low levels of sample protonation). Overall, increased solvent protonation makes the dipolar order governed polarization transfer significantly faster and more efficient. This study sheds light on the influential sample formulation traits which govern the dipolar order-controlled transfer of polarization and indicates that the polarization transfer efficiencies of deuterated molecules can be boosted and reach high performances simply by adequate solvent protonation.

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质子化调谐偶极序介导1H→13C交叉极化的溶解-动态核极化实验
近年来,偶极序介导的核自旋极化转移策略与溶解-动态核极化(dDNP)相结合,并通过优化形状的射频脉冲和适当的分子修饰进行了改进。在dDNP实验的背景下,与目前最先进的交叉极化方案相比,这提供了一种有希望的将极化从高γ 1H自旋转移到不敏感的13C自旋的方法,具有更低的峰值功率和更低的能量。局部分子基团的作用和玻璃基质的质子化水平都被假设在极化传递途径中发挥关键作用,通过偶极自旋顺序的中间储层。为了更好地理解dDNP条件下偶极序介导的极化转移机制,我们研究了样品组成的关键特征的影响:(i)修正了DNP玻璃组分的质子化水平;(ii)利用氘化分子衍生物。以[1-13C]乙酸钠为例,给出了实验证明。我们发现质子样品的摩尔浓度对偶极序交叉极化序列的最佳参数和性能都有很大的影响,在高溶剂质子化水平的情况下,13C信号的积累时间大大缩短。在氘化分子衍生物的情况下,我们观察到附近的2H取代甲基对1H→13C转移现象是有害的(特别是在低水平的样品质子化时)。总的来说,溶剂质子化的增加使得偶极序控制的极化转移明显更快和更有效。该研究揭示了影响偶极序控极化转移的样品配方特征,并表明只需适当的溶剂质子化即可提高氘化分子的极化转移效率并达到高性能。
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来源期刊
CiteScore
5.30
自引率
9.40%
发文量
42
审稿时长
72 days
期刊介绍: The journal Solid State Nuclear Magnetic Resonance publishes original manuscripts of high scientific quality dealing with all experimental and theoretical aspects of solid state NMR. This includes advances in instrumentation, development of new experimental techniques and methodology, new theoretical insights, new data processing and simulation methods, and original applications of established or novel methods to scientific problems.
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