‘Double chiral’ new members of calixsalen family

Q2 Chemistry Tetrahedron, asymmetry Pub Date : 2017-10-15 DOI:10.1016/j.tetasy.2017.08.021

Małgorzata Petryk , Agnieszka Janiak , Marcin Kwit

引用次数: 1

Abstract

Synthesis and X-ray diffraction studies on the first examples of ‘double chiral’ calixsalens are presented. In these molecules, one can clearly distinguish two chiral zones. The first one is made by the macrocycle base, whereas the second chiral zone is set up of the additional chirality elements in the tail of the molecule. The ‘double chiral’ calixsalens are formed through cyclocondensation between chiral vicinal diamine of trans-1,2-diaminocyclohexane type and chiral C-5 substituted 2-hydroxyisophthalaldehyde derivatives. The absolute configuration of the dialdehyde did not affect the yield of the macrocyclization reaction. The presence of secondary amides in the tail part of the macrocycle leads to formation of hydrogen bonding network in the solid state, while sterical hindrance preserve interdigitation, thus, ‘double chiral’ calixsalens do not form aggregates typical for other calixsalens.

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“双手性”卡利萨伦家族的新成员

本文介绍了第一批“双手性”杯状化合物的合成和x射线衍射研究。在这些分子中，人们可以清楚地区分出两个手性区。第一个手性区是由大环碱基构成的，而第二个手性区是由分子尾部附加的手性元素构成的。反式-1,2-二氨基环己烷型手性邻胺与手性C-5取代的2-羟基间苯二醛衍生物通过环缩合形成“双手性”杯sally。双醛的绝对构型对大环化反应的产率没有影响。大环尾部仲酰胺的存在导致固态氢键网络的形成，而位阻保持了交叉，因此，“双手性”杯状物不会形成其他杯状物典型的聚集体。

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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.

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