α-Cyanostilbene-modified 1,8-naphthalimide dye with long wavelength emission: synthesis, characterization, self-absorption + ESIPT, and controllable and reversible solid fluorescence

IF 2.5 3区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

New Journal of Chemistry Pub Date : 2025-08-19 DOI:10.1039/D5NJ01798J

Mingguang Zhu, Jiali Hu, Xinyu Ye, Yuting Zhang, Jinghui Zeng, Lihui Yang, Yuanbin Wu, Meihui Chen, Donghong Xie, Yue Yu and Yaohui You

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Abstract

The development of 1,8-naphthalimides (NPIs) with tunable and controllable solid fluorescence has received unprecedented attention in many fields. Herein, we report the design, synthesis, and optical behaviors of a novel α-cyanostilbene-modified 1,8-naphthalimide dye constructed from the Schiff base condensation reaction between the salicylaldehyde-analogue α-cyanostilbene luminogen and the NPI derivative obtained through the selective imidization of 1,8-naphthalic anhydride with 3-aminobenzylamine. Its well-defined structure was confirmed by FT-IR, HR-ESI-MS, and ¹H/¹³C NMR spectroscopies. In the solution state, the steady-state absorption and emission results revealed that the self-absorption between the NPI core and α-cyanostilbene group occurred when the NPI core was excited (under the excitation at 340 nm), accompanied by the ESIPT process of the α-cyanostilbene unit because the α-cyanostilbene unit was excited after self-absorption. Although it did not exhibit particularly remarkable aggregation-induced emission (AIE) features in THF/water solvent mixtures as the water content was increased, it showed controllable and reversible solid fluorescence. In particular, its crystallization in EtOH solvent at room temperature afforded an orange solid in natural light, emitting bright red fluorescence under UV_365 nm illumination. However, crystallization in an EtOH/H₂O mixture (1 : 1, v/v) at room temperature afforded a yellow solid in natural light, emitting dull red fluorescence under UV_365 nm illumination. Switching of the emission colors between bright red and dull red was highly reversible by crystallizing it in EtOH and EtOH/H₂O (1 : 1, v/v), respectively. Furthermore, the solid obtained by crystallization in EtOH displayed reversible acid/base stimuli-responsive fluorescence. This work provides a strategy for constructing controllable and reversible NPI-based fluorescent materials.

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长波发射α-氰二苯乙烯改性1,8-萘酰亚胺染料：合成、表征、自吸收+ ESIPT、可控可逆固体荧光

固体荧光可调可控的1,8-萘酰亚胺（NPIs）的开发受到了许多领域前所未有的关注。本文报道了一种新型α-氰二苯乙烯修饰的1,8-萘酰亚胺染料的设计、合成和光学行为，该染料是由水杨醛类似物α-氰二苯乙烯发光原和1,8-萘酰亚胺与3-氨基苄胺选择性亚胺化得到的NPI衍生物的希夫碱缩合反应构建的。通过FT-IR、HR-ESI-MS和1H/13C NMR证实了其结构清晰。在溶液状态下，稳态吸收和发射结果表明，当NPI核被激发时（在340 nm激发下），α-氰基苯乙烯基团与NPI核之间发生了自吸收，由于α-氰基苯乙烯单元在自吸收后被激发，因此伴随着α-氰基苯乙烯单元的ESIPT过程。虽然在THF/水溶剂混合物中，随着水含量的增加，它没有表现出特别显著的聚集诱导发射（AIE）特征，但它表现出可控和可逆的固体荧光。特别是在室温条件下，在EtOH溶剂中结晶，在自然光下形成橙色固体，在UV365 nm照明下发出明亮的红色荧光。然而，在室温下，在EtOH/H2O混合物（1:1,v/v）中结晶，在自然光下形成黄色固体，在UV365 nm照明下发出暗红色荧光。通过分别在EtOH和EtOH/H2O （1:1, v/v）中结晶，发射色在亮红色和暗红色之间切换具有高度可逆性。此外，在乙氢酸中结晶得到的固体显示出可逆的酸/碱刺激响应荧光。这项工作为构建可控可逆的npi基荧光材料提供了一种策略。

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