Metal ions based dynamic nuclear polarization: MI-DNP

IF 7.3 2区 化学 Q2 CHEMISTRY, PHYSICAL Progress in Nuclear Magnetic Resonance Spectroscopy Pub Date : 2023-08-22 DOI:10.1016/j.pnmrs.2023.08.002
Daniel Jardón-Álvarez, Michal Leskes
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Abstract

Over the last two decades magic angle spinning dynamic nuclear polarization (MAS DNP) has revolutionized NMR for materials characterization, tackling its main limitation of intrinsically low sensitivity. Progress in theoretical understanding, instrumentation, and sample formulation expanded the range of materials applications and research questions that can benefit from MAS DNP. Currently the most common approach for hyperpolarization under MAS consists in impregnating the sample of interest with a solution containing nitroxide radicals, which upon microwave irradiation serve as exogenous polarizing agents. On the other hand, in metal ion based (MI)-DNP, inorganic materials are doped with paramagnetic metal centres, which then can be used as endogenous polarizing agents. In this work we give an overview of the electron paramagnetic resonance (EPR) concepts required to characterize the metal ions and discuss the expected changes in the NMR response due to the presence of paramagnetic species. We highlight which properties of the electron spins are beneficial for applications as polarizing agents in DNP and how to recognize them, both from the EPR and NMR data. A theoretical description of the main DNP mechanisms is given, employing a quantum mechanical formalism, and these concepts are used to explain the spin dynamics observed in the DNP experiment. In addition, we highlight the main differences between MI-DNP and the more common approaches in MAS DNP, which use organic radicals as exogenous polarizing source. Finally, we review some applications of metal ions as polarizing agents in general and then focus particularly on research questions in materials science that can benefit from MI-DNP.

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基于金属离子的动态核极化:MI-DNP
在过去的二十年中,魔角自旋动态核极化(MAS DNP)彻底改变了核磁共振材料表征,解决了其固有低灵敏度的主要限制。理论认识、仪器和样品配方的进步扩大了材料应用和研究问题的范围,可以从MAS DNP中受益。目前,最常见的在MAS下进行超极化的方法是用含有氮氧化物自由基的溶液浸渍样品,在微波照射下作为外源极化剂。另一方面,在金属离子基(MI)-DNP中,无机材料被掺杂顺磁性金属中心,然后可以用作内源性极化剂。在这项工作中,我们概述了表征金属离子所需的电子顺磁共振(EPR)概念,并讨论了由于顺磁性物质的存在而导致的核磁共振响应的预期变化。我们强调了电子自旋的哪些性质有利于在DNP中作为极化剂的应用,以及如何从EPR和NMR数据中识别它们。采用量子力学的形式描述了DNP的主要机制,并用这些概念解释了DNP实验中观察到的自旋动力学。此外,我们强调了MI-DNP和MAS DNP中更常见的方法之间的主要区别,后者使用有机自由基作为外源极化源。最后,我们综述了金属离子作为极化剂的一些应用,并重点讨论了金属离子作为极化剂在材料科学中的应用。
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来源期刊
CiteScore
14.30
自引率
8.20%
发文量
12
审稿时长
62 days
期刊介绍: Progress in Nuclear Magnetic Resonance Spectroscopy publishes review papers describing research related to the theory and application of NMR spectroscopy. This technique is widely applied in chemistry, physics, biochemistry and materials science, and also in many areas of biology and medicine. The journal publishes review articles covering applications in all of these and in related subjects, as well as in-depth treatments of the fundamental theory of and instrumental developments in NMR spectroscopy.
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