Solid-state and aggregation-induced emission of novel bicyclic and tricyclic difluoroboron heterocycles†

IF 5.2 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Materials Advances Pub Date : 2024-09-02 DOI:10.1039/D4MA00653D

Martina Žabenská, Chiara Capolungo, Chiara Mariani, Damiano Genovese, Tomáš Mikysek, Jiří Váňa, Aleš Růžička, František Josefík, Markéta Svobodová and Petr Šimůnek

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Abstract

Six novel bicyclic and tricyclic difluoroboron NBN and OBN heterocycles were designed here in the quest for novel luminogenic molecular architectures because of their strong application potential as active layers in optoelectronics and as responsive units in sensing. They were prepared and then characterized with spectral (UV-vis, NMR, and luminescence) and electrochemical methods, and assessed via theoretical and X-ray investigations. Most of the compounds are non-emissive in solution, but luminescent in the solid state (red or yellow-green luminescence), and they are AIE active, offering excellent contrast for sensing schemes. Keeping this in view, two compounds were successfully embedded in Pluronic-silica nanoparticles (PluS NPs), coupling the AIEgenic properties of these compounds with the exceptional colloidal stability and functional surface of this type of nanostructure.

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新型双环和三环二氟硼杂环的固态和聚集诱导发射†。

六种新型双环和三环二氟硼 NBN 和 OBN 杂环是在寻找新型发光分子结构的过程中设计出来的，因为它们具有作为光电子学活性层和传感响应单元的强大应用潜力。我们制备了这些化合物，然后用光谱（紫外-可见光、核磁共振和发光）和电化学方法对其进行了表征，并通过理论和 X 射线研究对其进行了评估。大多数化合物在溶液中无发射性，但在固态下会发光（红色或黄绿色发光），而且它们具有 AIE 活性，可为传感方案提供极佳的对比度。有鉴于此，我们成功地将两种化合物嵌入了 Pluronic-二氧化硅纳米粒子（PluS NPs）中，将这些化合物的 AIEgenic 特性与这种纳米结构的优异胶体稳定性和功能性表面结合起来。

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