分子间氢键驱动多环羟基苯并咪唑的多种光致发光行为

IF 3.8 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Dancho Yordanov , Rastislav Smolka , Martin Vala , Martin Weiter , Anton Georgiev
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引用次数: 0

摘要

本文介绍了基于 4-羟基邻苯二甲酰亚胺的多环羟基苯并咪唑的合成,并形成了两种异构体结构。异构体结构能够形成分子间氢键分子缔合物。研究表明,羟基苯并咪唑氢键有机框架对不同的溶剂极性非常敏感,特别是在质子供体介质中,从而导致发射蓝移。利用乙腈/水的二元混合物和三氟乙酸质子化,对质子供体介质的作用进行了评估。结果表明,通过调整环境,聚集诱导的发射出现在蓝色区域,并且与极性较弱的非沸腾溶剂相比,形成了更大的聚集体。据估计,在酸性条件下,氢键二聚体会被破坏,从而产生深蓝色发射。这为控制分子关联和调整光学行为提供了机会。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Versatile photoluminescence behavior of polycyclic hydroxybenzimidazoles driven by intermolecular hydrogen bonding

Versatile photoluminescence behavior of polycyclic hydroxybenzimidazoles driven by intermolecular hydrogen bonding
Herein, the synthesis of polycyclic hydroxybenzimidazole based on 4-hydroxyphthalimide is presented and two isomeric structures are formed. The isomeric structures are capable of forming intermolecular hydrogen-bonded molecular associates. Hydroxybenzimidazole hydrogen-bonded organic frameworks have been shown to be sensitive to different solvent polarity, particularly in proton donor media, resulting in a blue shift in emission. The role of proton donor media has been evaluated using the binary mixture of acetonitrile/water and protonation by trifluoroacetic acid. The results show that by tuning the environment, the aggregation induced emission has appeared in the blue region and larger aggregates are formed compared to the less polar aprotic solvents. Under acidic conditions, the disruption of the hydrogen-bonded dimers was estimated, resulting in deep blue emission. This provides an opportunity to control the molecular associates and tune the optical behavior.
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来源期刊
Optical Materials
Optical Materials 工程技术-材料科学:综合
CiteScore
6.60
自引率
12.80%
发文量
1265
审稿时长
38 days
期刊介绍: Optical Materials has an open access mirror journal Optical Materials: X, sharing the same aims and scope, editorial team, submission system and rigorous peer review. The purpose of Optical Materials is to provide a means of communication and technology transfer between researchers who are interested in materials for potential device applications. The journal publishes original papers and review articles on the design, synthesis, characterisation and applications of optical materials. OPTICAL MATERIALS focuses on: • Optical Properties of Material Systems; • The Materials Aspects of Optical Phenomena; • The Materials Aspects of Devices and Applications. Authors can submit separate research elements describing their data to Data in Brief and methods to Methods X.
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