封面图:钠钾竞争作为化学选择性瓜素[n]铀-氙主-客体络合在成像中的应用方法3/2025)

IF 6.1 Q1 CHEMISTRY, MULTIDISCIPLINARY
Dr. Katarzyna Dziubińska-Kühn, Dr. Guzel Musabirova, Sophie Effertz, Prof. Jörg Matysik, Prof. Renaud Blaise Jolivet
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引用次数: 0

摘要

封面说明了野生海獭通过抓爪子来确保它们呆在一起,不会在睡梦中飘散。这源于一个不让任何兽群成员掉队的概念。如果满足实验条件,Renaud Blaise Jolivet及其同事的研究中也观察到同样的现象,即K+离子和笼形分子在溶液中相互作用,形成具有明显更高Xe包封率的物种。CB b[6]-碱对对Xe的优先笼养被视为与海獭以抓爪为基础的社会聚集的类比。欲了解更多细节,请参阅Renaud Blaise Jolivet及其同事的研究文章(DOI: 10.1002/cmtd.202400033)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Cover Picture: Sodium-Potassium Competition as a Tool for Chemoselective Cucurbit[n]uril-Xenon Host–Guest Complexation in Imaging Applications (Chem. Methods 3/2025)

Cover Picture: Sodium-Potassium Competition as a Tool for Chemoselective Cucurbit[n]uril-Xenon Host–Guest Complexation in Imaging Applications (Chem. Methods 3/2025)

The Front Cover illustrates that by paw-holding, wild sea otters ensure they stay together and do not drift apart in their sleep. This comes from a concept of no herd member being left behind. If the experimental conditions are met, the same phenomenon is observed in the study by Renaud Blaise Jolivet and co-workers, where K+ ions and cage molecules interact in the solution, forming species with significantly higher Xe encapsulation rates. The preferential caging of Xe by CB[6]-alkali pairs is seen as an analogy to the paw-holding-based social gathering of sea otters. For more details, see the Research Article by Renaud Blaise Jolivet and co-workers (DOI: 10.1002/cmtd.202400033).

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