硫酸-β-环糊精诱导氰烯衍生物多价超分子定向聚集,实现可逆近红外荧光

Aggregate Pub Date : 2024-06-24 DOI:10.1002/agt2.627
Zhixue Liu, Haiqi Chen, Mengdi Tian, Xinyao Sun, Yong‐Xue Li, Jie Wu, Ruotong Wang, Bin Li, Chunju Li, Yu Liu
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摘要

分子聚集或超分子聚集诱导发射是化学、生物和材料领域的研究热点之一。在此,我们报告了带负电荷的硫代-β-环糊精(SCD)通过超分子多价相互作用诱导氰基乙烯衍生物(DPy-6C)定向聚集形成规则的纳米棒(DPy-6C@SCD),不仅实现了从 453 纳米到 521 纳米的紫外可见光吸收重移,而且还显示了 135 纳米的大光谱重移的近红外聚集诱导发射。DPy-6C 单体呈无规纳米片状,荧光微弱,但在与 SCD 组装后会通过静电作用获得规则的聚集体。在 H+ 的存在下,DPy-6C@SCD 可以进一步聚集成椭圆形纳米片,但由于仲胺的质子化作用,荧光不会发生变化。相反,DPy-6C@SCD 的形态在加入 OH- 后变得柔韧并粘在一起,由于破坏了聚集体的堆积模式,发射蓝移达 72 nm,强度增加了 90 倍,从而实现了 DPy-6C 单体无法实现的酸碱调节可逆荧光行为。DPy-6C@SCD 可在 5 秒内高效地选择检测液相和气相中的挥发性有机胺,检测浓度可达纳摩尔级。利用 RGB 分析和计算公式应用的优势,DPy-6C@SCD 已成功用于在智能手机上监测各种有机胺,并伴有肉眼可见光发光。因此,本研究通过超分子多价相互作用提供了一种高效的定向聚集方法,不仅实现了拓扑形貌的转变,还实现了可逆的近红外发光分子开关和高灵敏度的有机胺荧光传感装置。
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Sulfato‐β‐cyclodextrin induced multivalent supramolecular directional aggregation of cyanovinylene derivatives for achieving reversible near‐infrared fluorescence
Molecular aggregation or supramolecular aggregation‐induced emission is one of the research hotspots in chemistry, biology, and materials. Herein, we report negatively charged sulfato‐β‐cyclodextrin (SCD) induced cyanovinylene derivatives (DPy‐6C) directional aggregation to form regular nanorods (DPy‐6C@SCD) through supramolecular multivalent interactions, not only achieves ultraviolet‐visible absorption redshifted from 453 to 521 nm but also displays near‐infrared (NIR) aggregation‐induced emission with a large spectral redshift of 135 nm. The DPy‐6C monomer presents random nanosheets with weak fluorescence but obtains regular aggregates after assembly with SCD through electrostatic interactions. In the presence of H+, the DPy‐6C@SCD can further aggregate into elliptical nanosheets without fluorescence changes due to the protonation of secondary amines. In contrast, the morphology of DPy‐6C@SCD becomes flexible and sticks together upon the addition of OH with an emission blue shift of 72 nm and a 90‐fold intensity increase because of disrupting the stacking mode of aggregates, thereby achieving acid‐base regulated reversible fluorescence behaviors that cannot be realized by DPy‐6C monomer. The DPy‐6C@SCD can efficiently select the detection of volatile organic amines both in liquid and gas phases within 5 s at the nanomolar level. Taking advantage of RGB analysis and calculation formula application, the DPy‐6C@SCD has been successfully used to monitor various organic amines on a smartphone, accompanied by naked‐eye visible photoluminescence. Therefore, the present research provides an efficient directional aggregation method through supramolecular multivalent interactions, which not only realizes topological morphology transformation but also achieves reversible NIR luminescent molecular switch and high sensitivity organic amines fluorescent sensing devices.
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