一种包含集成三唑 C-H 氢键供体的轮烷主体系统，用于阴离子识别。

A rotaxane host system containing integrated triazole C-H hydrogen bond donors for anion recognition.

机构信息

Chemistry Research Laboratory, Department of Chemistry, University of Oxford, 12 Mansfield Road, Oxford, OX1 3TA, UK.

出版信息

Org Biomol Chem. 2013 Feb 28;11(8):1326-33. doi: 10.1039/c2ob27229f.

Abstract

Two rotaxanes incorporating a 3,5-bis(triazole)-pyridinium axle component have been prepared using either an anion templated amide condensation or ring closing metathesis (RCM) clipping strategy. The respective yields of interlocked receptor were found to be significantly higher when the RCM clipping synthetic route was used. Proton NMR titration experiments in competitive 1 : 1 CDCl(3)-CD(3)OD solvent media reveal that the rotaxane prepared by the clipping procedure is selective for halide anions over larger, more basic oxoanions. Interestingly, the interlocked host displays an unusual preference for bromide over other halide anions.

摘要

两种轮烷，分别采用阴离子模板酰胺缩合或环 closing metathesis (RCM) 夹合策略，引入了 3,5-双（三唑）-吡啶翁轴组件。当使用 RCM 夹合合成路线时，互锁受体的产率显著提高。在竞争性 1:1 CDCl(3)-CD(3)OD 溶剂介质中进行的质子 NMR 滴定实验表明，通过夹合程序制备的轮烷对卤化物阴离子具有选择性，而对更大、更碱性的氧阴离子则没有选择性。有趣的是，互锁主体对溴化物表现出异常的偏好，而对其他卤化物阴离子则没有。

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一种包含集成三唑 C-H 氢键供体的轮烷主体系统，用于阴离子识别。

A rotaxane host system containing integrated triazole C-H hydrogen bond donors for anion recognition.

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