特罗格碱分子支架在二羧酸识别中的应用

Troger's base molecular scaffolds in dicarboxylic acid recognition.

作者信息

Goswami S, Ghosh K, Dasgupta S

机构信息

Department of Chemistry, Bengal Engineering College (Deemed University), Howrah, India.

出版信息

J Org Chem. 2000 Apr 7;65(7):1907-14. doi: 10.1021/jo9909204.

DOI:10.1021/jo9909204

PMID:10774008

Abstract

Artificial receptors (1-5) have been designed and synthesized from simple precursors. The chain length selectivity studies of dicarboxylic acids within the cavities of new fluorescent Troger's base molecular frameworks (1-3) have been carried out with a critical examination of their role of rigidity as well as flexibility in selective binding in comparison to receptor 5. The chiral resolution of the racemic Troger's base receptors (1 and 2) by chiral recognition with (+)- camphoric acid using hydrogen-bonding interactions has been studied.

摘要

人工受体（1 - 5）已由简单前体设计并合成。已对新型荧光特罗格碱分子框架（1 - 3）腔内二元羧酸的链长选择性进行了研究，并与受体5相比，严格考察了它们在选择性结合中刚性和柔性的作用。研究了通过与（+） - 樟脑酸形成氢键相互作用对手性特罗格碱受体（1和2）进行外消旋体拆分。

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特罗格碱分子支架在二羧酸识别中的应用

Troger's base molecular scaffolds in dicarboxylic acid recognition.

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