盐对微升内空间内硫醇环化反应速率的影响

IF 2.1 4区化学 Q3 CHEMISTRY, MULTIDISCIPLINARY

Supramolecular Chemistry Pub Date : 2022-02-01 DOI:10.1080/10610278.2023.2231120

Kaiyu Wang, Wei Yao, Xiaoyang Cai, B. Gibb

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引用次数: 0

摘要

对库仑相互作用在酶催化中的核心作用的认识已经导致了许多控制化学反应的“衍生”策略的发展。特别是，超分子化学已经越来越熟练地使用包封/区隔化来控制宿主内部空间内的化学计量和催化反应。值得注意的是，围绕这种宿主内静电势场的设计，以及如何使用外生因素来微调这些特性，仍然存在许多悬而未决的问题。在这里，我们报道了12-溴十二烷-1-硫醇2在超分子胶囊12内环化生成噻环三烷3，以及该反应的速率如何随外源盐的变化而变化。我们发现这种环化在外源阴离子的存在下减慢，衰减高度依赖于它们的性质和浓度。因此，这项工作证明了Hofmeister系列的弱溶剂化末端的阴离子如何与胶囊的外壁结合，从而减弱环化。这表明了内部空间的反应可以通过外源性化学实体间接调节的新方法。图形抽象

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Salt effects on the rates of a thiol cyclisation reaction within a yocto-litre inner-space

ABSTRACT The appreciation of the central role of Coulombic interactions in enzyme catalysis has led to the development of many ‘spin-off’ strategies for controlling chemical reactions. In particular, supramolecular chemistry has become increasingly proficient in using encapsulation/compartmentalisation to control both stoichiometric and catalytic reactions within the inner-spaces of hosts. This noted, there are still many open questions around the design of electrostatic potential fields within such hosts, and how exogenous factors can be used to fine-tune these properties. Here, we report on the cyclisation of 12-bromododecane-1-thiol 2 inside supramolecular capsule 1 2 to give thiacyclotridecane 3, and how the rate of this reaction changes as a function of exogenous salts. We find that this cyclisation is slowed in the presence of exogenous anions, with attenuation being highly dependent on both their nature and concentration. Thus, this work demonstrates how anions at the more-weakly solvated end of the Hofmeister series can associate with the outer walls of the capsule and so attenuate cyclisation. This suggests new ways in which reactions in inner-spaces can be indirectly modulated by exogeneous chemical entities. GRAPHICAL ABSTRACT

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来源期刊

Supramolecular Chemistry 化学-化学综合

CiteScore

3.60

自引率

3.00%

发文量

审稿时长

2.7 months

期刊介绍： Supramolecular Chemistry welcomes manuscripts from the fields and sub-disciplines related to supramolecular chemistry and non-covalent interactions. From host-guest chemistry, self-assembly and systems chemistry, through materials chemistry and biochemical systems, we interpret supramolecular chemistry in the broadest possible sense. Interdisciplinary manuscripts are particularly encouraged. Manuscript types include: high priority communications; full papers; reviews, and; Methods papers, techniques tutorials highlighting procedures and technologies that are important to the field. We aim to publish papers in a timely fashion and as soon as a paper has been accepted and typeset it will be published in electronic form on the Latest articles section of the website. The two most important review criteria are that the paper presents high-quality work that fits generally into the broad spectrum of activities in the supramolecular chemistry field. Under normal circumstances, Supramolecular Chemistry does not consider manuscripts that would be more suitable in a highly specialized journal. This includes, but is not limited to, those based mostly or exclusively on topics such as solid state/X-ray structures, computational chemistry, or electrochemistry. . The two most important review criteria are that the paper presents high-quality work that fits generally into the broad spectrum of activities in the supramolecular chemistry field.