四氮唑大环在水介质中与阴离子的结合。

Anion binding in aqueous media by a tetra-triazolium macrocycle.

机构信息

Chemistry Research Laboratory, Department of Chemistry, University of Oxford, South Parks Road, Oxford, OX1 3TA, United Kingdom.

出版信息

Org Biomol Chem. 2012 Sep 14;10(34):6951-9. doi: 10.1039/c2ob25934f. Epub 2012 Jul 24.

DOI:10.1039/c2ob25934f

PMID:22829100

Abstract

Three tetra-triazole macrocycles were synthesized in good yields by the copper(i)-catalysed cycloaddition of bis-triazole azides and bis-alkynes. One of these was alkylated to give a cyclic tetra-triazolium receptor, which complexes anions strongly in competitive DMSO-water mixtures. In 1 : 1 DMSO-water, the tetracationic receptor exhibits a preference for the larger halides, bromide and iodide, with all halides associating more strongly than the oxoanion, acetate. The sulfate dianion is complexed far more strongly than any of the monobasic anions (K(a) > 10(4) M(-1)). Quantum mechanics/molecular mechanics simulations corroborate the experimentally determined anion binding selectivity trends.

摘要

通过双三唑叠氮化物和双炔的铜（I）催化环加成反应，以高产率合成了三个四唑大环。其中一个被烷基化得到环状四唑鎓受体，它在竞争的 DMSO-水混合物中强烈地与阴离子配位。在 1：1 的 DMSO-水中，四价阳离子受体对较大的卤化物，溴化物和碘化物表现出偏好，所有卤化物的结合强度都大于酮阴离子，乙酸盐。硫酸二价阴离子的络合强度远远大于任何一元阴离子（K(a) > 10(4) M(-1)）。量子力学/分子力学模拟证实了实验确定的阴离子结合选择性趋势。

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四氮唑大环在水介质中与阴离子的结合。

Anion binding in aqueous media by a tetra-triazolium macrocycle.

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