Determination of absolute configuration using X-ray diffraction

Q2 Chemistry

Tetrahedron, asymmetry Pub Date : 2017-10-15 DOI:10.1016/j.tetasy.2017.08.018

Simon Parsons

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引用次数: 39

Abstract

Methods for determination of absolute structure using X-ray crystallography are described, with an emphasis on applications for absolute configuration assignment of enantiopure light-atom organic compounds. The ability to distinguish between alternative absolute structures by X-ray crystallography is the result of a physical phenomenon called resonant scattering, which introduces small deviations from the inherent inversion symmetry of single-crystal X-ray diffraction patterns. The magnitude of the effect depends on the elements present in the crystal and the wavelength of the X-rays used to collect the diffraction data, but it is always very weak for crystals of compounds containing no element heavier than oxygen. The precision of absolute structure determination by conventional least squares refinement appears to be unduly pessimistic for light-atom materials. Recent developments based on Bijvoet differences, quotients and Bayesian statistics enable better and more realistic precision to be obtained. The new methods are sensitive to statistical outliers, and techniques for identifying these are summarised.

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用x射线衍射测定绝对构型

描述了用x射线晶体学测定绝对结构的方法，重点介绍了对映纯光原子有机化合物绝对构型分配的应用。通过x射线晶体学区分不同绝对结构的能力是一种被称为共振散射的物理现象的结果，它引入了与单晶x射线衍射模式固有的反转对称性的小偏差。这种效应的大小取决于晶体中存在的元素和用来收集衍射数据的x射线的波长，但对于不含比氧重的元素的化合物晶体来说，这种效应总是很弱。对于光原子材料，用传统的最小二乘精算确定绝对结构的精度显得过于悲观。基于Bijvoet差异、商和贝叶斯统计的最新发展使获得更好和更现实的精度成为可能。新方法对统计异常值敏感，并总结了识别这些异常值的技术。

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来源期刊

Tetrahedron, asymmetry 化学-无机化学与核化学

CiteScore

4.70

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： Cessation. Tetrahedron: Asymmetry presents experimental or theoretical research results of outstanding significance and timeliness on asymmetry in organic, inorganic, organometallic and physical chemistry, as well as its application to related disciplines, especially bio-organic chemistry. The journal publishes critical reviews, original research articles and preliminary communications dealing with all aspects of the chemical, physical and theoretical properties of non-racemic organic and inorganic materials and processes. Topics relevant to the journal include: the physico-chemical and biological properties of enantiomers; strategies and methodologies of asymmetric synthesis; resolution; chirality recognition and enhancement; analytical techniques for assessing enantiomeric purity and the unambiguous determination of absolute configuration; and molecular graphics and modelling methods for interpreting and predicting asymmetric phenomena. Papers describing the synthesis or properties of non-racemic molecules will be required to include a separate statement in the form of a Stereochemistry Abstract, for publication in the same issue, of the criteria used for the assignment of configuration and enantiomeric purity.