Paramagnetic NMR in solution and the solid state

IF 7.3 2区 化学 Q2 CHEMISTRY, PHYSICAL
Andrew J. Pell , Guido Pintacuda , Clare P. Grey
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引用次数: 235

Abstract

The field of paramagnetic NMR has expanded considerably in recent years. This review addresses both the theoretical description of paramagnetic NMR, and the way in which it is currently practised. We provide a review of the theory of the NMR parameters of systems in both solution and the solid state. Here we unify the different languages used by the NMR, EPR, quantum chemistry/DFT, and magnetism communities to provide a comprehensive and coherent theoretical description. We cover the theory of the paramagnetic shift and shift anisotropy in solution both in the traditional formalism in terms of the magnetic susceptibility tensor, and using a more modern formalism employing the relevant EPR parameters, such as are used in first-principles calculations. In addition we examine the theory first in the simple non-relativistic picture, and then in the presence of spin-orbit coupling. These ideas are then extended to a description of the paramagnetic shift in periodic solids, where it is necessary to include the bulk magnetic properties, such as magnetic ordering at low temperatures. The description of the paramagnetic shift is completed by describing the current understanding of such shifts due to lanthanide and actinide ions. We then examine the paramagnetic relaxation enhancement, using a simple model employing a phenomenological picture of the electronic relaxation, and again using a more complex state-of-the-art theory which incorporates electronic relaxation explicitly. An additional important consideration in the solid state is the impact of bulk magnetic susceptibility effects on the form of the spectrum, where we include some ideas from the field of classical electrodynamics. We then continue by describing in detail the solution and solid-state NMR methods that have been deployed in the study of paramagnetic systems in chemistry, biology, and the materials sciences. Finally we describe a number of case studies in paramagnetic NMR that have been specifically chosen to highlight how the theory in part one, and the methods in part two, can be used in practice. The systems chosen include small organometallic complexes in solution, solid battery electrode materials, metalloproteins in both solution and the solid state, systems containing lanthanide ions, and multi-component materials used in pharmaceutical controlled-release formulations that have been doped with paramagnetic species to measure the component domain sizes.

Abstract Image

溶液和固态的顺磁核磁共振
近年来,顺磁核磁共振领域有了很大的发展。本文综述了顺磁核磁共振的理论描述,以及目前应用的方法。本文综述了溶液和固态体系的核磁共振参数理论。在这里,我们统一了NMR, EPR,量子化学/DFT和磁学社区使用的不同语言,以提供全面和连贯的理论描述。我们涵盖了顺磁位移和位移各向异性的理论,在传统的磁化率张量形式下,以及使用更现代的形式,采用相关的EPR参数,如在第一性原理计算中使用。此外,我们首先在简单的非相对论图像中检验该理论,然后在存在自旋-轨道耦合的情况下检验。这些想法随后被扩展到周期性固体中的顺磁位移的描述,其中有必要包括体磁性,例如低温下的磁有序。顺磁位移的描述是通过描述目前对这种由镧系和锕系离子引起的位移的理解来完成的。然后,我们使用采用电子弛豫的现象学图像的简单模型,并再次使用更复杂的最新理论,明确地包含电子弛豫,来检查顺磁弛豫增强。在固态中,另一个重要的考虑因素是体磁化率对光谱形式的影响,其中我们包括一些来自经典电动力学领域的想法。然后,我们继续详细描述在化学、生物学和材料科学的顺磁系统研究中已经部署的溶液和固态核磁共振方法。最后,我们描述了一些顺磁核磁共振的案例研究,这些研究是专门选择的,以突出第一部分中的理论和第二部分中的方法如何在实践中使用。所选择的系统包括溶液中的小型有机金属配合物,固体电池电极材料,溶液和固态中的金属蛋白,含有镧系离子的系统,以及用于药物控释配方的多组分材料,这些材料已经掺杂了顺磁性物质以测量组分结构域的大小。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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