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通过固体高分辨核磁共振评估的静电约束揭示了晶体多晶型物的差异。

Electrostatic Constraints Assessed by H MAS NMR Illuminate Differences in Crystalline Polymorphs.

作者信息

Damron Joshua T, Kersten Kortney M, Pandey Manoj Kumar, Mroue Kamal H, Yarava Jayasubba Reddy, Nishiyama Yusuke, Matzger Adam J, Ramamoorthy Ayyalusamy

机构信息

Department of Chemistry, University of Michigan , 930 North University Avenue, Ann Arbor, Michigan 48109-1055, United States.

RIKEN CLST-JEOL Collaboration Center, RIKEN , Yokohama, Kanagawa 230-0045, Japan.

出版信息

J Phys Chem Lett. 2017 Sep 7;8(17):4253-4257. doi: 10.1021/acs.jpclett.7b01650. Epub 2017 Aug 25.

DOI:10.1021/acs.jpclett.7b01650
PMID:28825828
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6295661/
Abstract

Atomically resolved crystal structures not only suffer from the inherent uncertainty in accurately locating H atoms but also are incapable of fully revealing the underlying forces enabling the formation of final structures. Therefore, the development and application of novel techniques to illuminate intermolecular forces in crystalline solids are highly relevant to understand the role of hydrogen atoms in structure adoption. Novel developments in H NMR MAS methodology can now achieve robust measurements of H chemical shift anisotropy (CSA) tensors which are highly sensitive to electrostatics. Herein, we use H CSA tensors, measured by MAS experiments and characterized using DFT calculations, to reveal the structure-driving factors between the two polymorphic forms of acetaminophen (aka Tylenol or paracetamol) including differences in hydrogen bonding and the role of aromatic interactions. We demonstrate how the H CSAs can provide additional insights into the static picture provided by diffraction to elucidate rigid molecules.

摘要

原子分辨晶体结构不仅在准确定位氢原子方面存在固有的不确定性,而且无法充分揭示促成最终结构形成的潜在作用力。因此,开发和应用新技术以阐明晶体固体中的分子间作用力对于理解氢原子在结构形成中的作用至关重要。核磁共振氢谱(H NMR)魔角旋转(MAS)方法的新进展现在能够对氢化学位移各向异性(CSA)张量进行可靠测量,而该张量对静电作用高度敏感。在此,我们使用通过MAS实验测量并经密度泛函理论(DFT)计算表征的氢CSA张量,来揭示对乙酰氨基酚(又名泰诺林或扑热息痛)两种多晶型物之间的结构驱动因素,包括氢键差异和芳香相互作用的作用。我们展示了氢CSA如何能够为衍射提供的静态图像提供额外的见解,以阐明刚性分子。

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