C─H···π interaction induced H-aggregates for wide range water content detection in organic solvents

IF 13.9 Q1 CHEMISTRY, MULTIDISCIPLINARY Aggregate (Hoboken, N.J.) Pub Date : 2024-03-24 DOI:10.1002/agt2.546
Jiajun Xu, Meifen Huang, Haijun Pang, Zhehui Weng, Guangzhi Hu, Siman Zhang, Qiuling Yang, Qiong Wu
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Abstract

J-aggregation and H-aggregation are identified as two classical models of functionally oriented non-covalent interactions, and significant attention has been drawn by researchers. However, due to the scarcity of single-crystal examples of H-aggregation, a comprehensive understanding of the relationship between its stacking mode and optical behaviour has been hindered. In recent studies, two polyaromatic Schiff base compounds, Cl-Salmphen and H-Salmphen, were successfully synthesized, and both were found to exhibit H-aggregation. In the findings, H-Salmphen was shown to display typical C─H···π interactions, characteristic of Aggregation-Induced Emission (AIE) active molecules, whereas its halogenated counterpart was identified as behaving similar to Aggregation-Caused Quenching (ACQ) active molecules. These types of results suggest that identical intermolecular interactions can produce differing optical behaviours. Light was shed, at least in part, on the formation mechanisms of H-type aggregates and their luminescence properties from these observations. Additionally, the high optical signal-to-noise ratio inherent to H-aggregates was utilized for the exploration of water content detection. As an outcome, a high-performance fluorescent filter paper was developed, enabling easy real-time detection using a smartphone.

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用于有机溶剂中大范围含水量检测的 C─H--π相互作用诱导 H 聚合物
J-聚集和H-聚集被认为是功能取向非共价相互作用的两种经典模式,并引起了研究人员的极大关注。然而,由于 H-聚集的单晶实例很少,阻碍了人们对其堆积模式与光学行为之间关系的全面了解。最近的研究成功合成了两种多芳香族席夫碱化合物--Cl-Salmphen 和 H-Salmphen,并发现这两种化合物都表现出 H-聚集。研究结果表明,H-Salmphen 表现出典型的 C─H---π 相互作用,这是聚集诱发发射(AIE)活性分子的特征,而其卤代对应物则被确定为类似于聚集诱发淬灭(ACQ)活性分子。这些结果表明,相同的分子间相互作用可以产生不同的光学行为。这些观察结果至少部分揭示了 H 型聚集体的形成机制及其发光特性。此外,还利用 H 型聚集体固有的高光学信噪比来探索含水量检测。结果,开发出了一种高性能荧光滤纸,可使用智能手机轻松进行实时检测。
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17.40
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审稿时长
7 weeks
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