NMR Crystallography of Aluminum Carbide: Impuritiesin the Reagent and Improved 27Al NMR Tensors

R. Marti, V. Sarou-kanian, Colton M. Moran, Krista S. Walton, S. Hayes
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Abstract

The structure of aluminum carbide (from two different manufacturers) has been interrogated by 27Al solid-state NMR in an effort to accurately characterize the material. Quadrupolar line shapes for 27Al sites such as these are important to catalogue, as efforts are underway to employ NMR crystallography tools to understand and predict both solid-state structures and perturbations to these that are relevant to NMR analyses. Impurities present in both of the samples are revealed to be aluminum oxycarbides, as well as an aluminum metal impurity in one and aluminum nitride in anotherpotentially important information for groups employing aluminum carbide in syntheses or in other applications. Triple-quantum magic-angle spinning (3Q-MAS) 27Al NMR was employed to help determine the quadrupolar parameters of the two crystallographically inequivalent aluminum sites in Al4C3. Revised values for the quadrupolar tensors of this material were measured and simulated through use of CASTEP-NMR.
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碳化铝的核磁共振晶体学:试剂中的杂质和改进的27Al核磁共振张量
碳化铝的结构(来自两个不同的制造商)已经询问27Al固态核磁共振,以努力准确表征材料。像这样的27Al位点的四极线形状对编录很重要,因为人们正在努力使用核磁共振晶体学工具来理解和预测固态结构和与核磁共振分析相关的扰动。在两个样品中存在的杂质被发现是氧化铝,以及铝金属杂质在一个和氮化铝在另一个对于在合成或在其他应用中使用碳化铝的群体潜在的重要信息。采用三量子魔角自旋(3Q-MAS) 27Al NMR测定了Al4C3中两个晶体不相等铝位的四极性参数。通过使用CASTEP-NMR测量和模拟了该材料的四极性张量的修正值。
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