有机晶体的光学活性:各向异性回旋的晶体轨道模型

IF 2.8 4区 化学 Q2 CHEMISTRY, ANALYTICAL Chirality Pub Date : 2024-10-15 DOI:10.1002/chir.23719
Masashi Hatanaka
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引用次数: 0

摘要

要描述晶体的光学活动,必须对所有波长的入射光都要有回旋张量。迄今为止,从布洛赫态直接计算回旋张量的研究还很少。本文介绍了一种利用晶体轨道法获得有机晶体回旋张量的实用程序。该方法采用扩展的 Hückel 方法来评估回旋张量,是单电子公式的缩影。为了证实该公式的有效性,研究人员对丙氨酸和γ-甘氨酸的光学旋转力进行了检验。再现的光学旋转力曲线与最近的实验结果一致。这是三维晶体光学活动单电子理论的一般表述。原则上,光学旋转强度张量并不随平移而不变。然而,对于具有小单元的系统,该形式主义在平移方面是准不变的。这种与原点无关的准形式主义足以适用于现代晶体光学。
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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Optical Activities of Organic Crystals: Crystal Orbital Formulation of Anisotropic Gyration

To describe the optical activities of crystals, gyration tensors are necessary for all wavelengths of incident light. To date, few studies on direct calculations of gyration tensors from Bloch states have been conducted. Herein, a practical procedure to obtain gyration tensors of organic crystals is presented using the crystal orbital method. The extended Hückel method was adopted to evaluate the gyration tensors, epitomizing the one-electron formulation. To confirm the validity of the formulation, the optical rotatory power of alanine and γ-glycine was examined. The reproduced profiles of the optical rotatory power were consistent with the results of recent experiments. This is a general formulation of the one-electron theory of optical activities for three-dimensional crystals. In principle, the optical rotatory strength tensor is not invariant with translation. For systems with small unit cells, however, the formalism is quasi-invariant with respect to translation. The quasi origin-independent formalism is sufficiently substantial to be applicable to modern crystal optics.

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来源期刊
Chirality
Chirality 医学-分析化学
CiteScore
4.40
自引率
5.00%
发文量
124
审稿时长
1 months
期刊介绍: The main aim of the journal is to publish original contributions of scientific work on the role of chirality in chemistry and biochemistry in respect to biological, chemical, materials, pharmacological, spectroscopic and physical properties. Papers on the chemistry (physiochemical, preparative synthetic, and analytical), physics, pharmacology, clinical pharmacology, toxicology, and other biological aspects of chiral molecules will be published.
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