一种基于葫芦素和阳离子 TPE 的超分子自组装材料,可作为高能五唑盐的超灵敏探针

IF 5 Q1 ENGINEERING, MULTIDISCIPLINARY Defence Technology(防务技术) Pub Date : 2024-05-01 DOI:10.1016/j.dt.2023.09.006
Boan Tang, Jingxiang Zhong, Shutao Wang, Shiyu Zhou, Yongxing Tang, Wei Huang
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引用次数: 0

摘要

五唑醇阴离子(环-N5-)的成功合成是高能材料领域的一项重大突破。然而,基于五唑醇阴离子的高能材料检测方法却十分罕见。在此,我们设计了两种环-N5-阴离子的荧光探针。传感器 1(TPE2N)是用由两个阳离子基团官能化的四苯基乙烯合成的,这两个阳离子基团能与五唑醇阴离子产生强烈的静电作用,并导致特定的荧光变化。传感器 2 是在传感器 1 和超分子葫芦[7]脲(CB[7])的基础上设计的。CB[7] 的独特结构特征为其空腔中的阳离子和 N5- 阴离子之间的相互作用提供了场所,这将产生一个检测平台并提高识别性能。等温滴定量热实验和荧光滴定实验表明,传感器 1 与 CB[7] 的结合摩尔比为 1:2。两种传感器都显示出典型的聚集诱导发射(AIE)特征和良好的水溶性。这两种传感器对戊唑肼盐的灵敏度极高,具有较高的增强常数(传感器 1:1.34 × 106;传感器 2:3.78 × 106)和较低的检测限(LOD:传感器 1 = 4.33 μM;传感器 2 = 1.54 μM)。基于 AIE 的超分子传感器的形成有效提高了对 N5 阴离子的灵敏度。此外,探针对 N5 阴离子盐也具有良好的选择性。这项研究为设计新型荧光传感器检测五唑醇分子提供了一些启示,也为超分子化学与荧光探针的结合提供了一个范例。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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A supramolecular self-assembly material based on cucurbituril and cationic TPE as ultra-sensitive probe of energetic pentazolate salts

The successful synthesis of the pentazolate anion (cyclo-N5) has been a great breakthrough in the field of energetic materials. However, the detection methods for these energetic materials based on the pentazolate anion are quite rare. Herein, two fluorescent probes for cyclo-N5 anion were designed. Sensor 1 (TPE2N) was synthesized with a tetraphenylethylene functionalized by two cationic groups which can generate strong electrostatic interactions with pentazolate anion and result in specific fluorescent changes. Sensor 2 was designed based on sensor 1 and supramolecular cucurbit[7]uril (CB[7]). The unique structural features of CB[7] provide sites for the interaction between the cations and N5 anion in its cavity, which would generate a platform for the detection and enhance the recognition performance. Isothermal titration calorimetry (ITC) experiment and fluorescence titration experiment indicate the binding molar ratio between sensor 1 with CB[7] is 1:2. Both sensors display typical aggregation-induced emission (AIE) features and good water-solubility. The sensors demonstrate excellent sensitivity to pentazole hydrazine salt with high enhancement constant (sensor 1: 1.34 × 106; sensor 2: 3.78 × 106) and low limit of detection (LOD: sensor 1 = 4.33 μM; sensor 2 = 1.54 μM). The formation of an AIE-based supramolecular sensor effectively improves the sensitivity to N5 anion. In addition, the probes also have good selectivity of N5 anion salts. The research would shed some light on the design of novel fluorescent sensors to detect pentazolate-based molecules and provides an example of supramolecular chemistry combined with fluorescent probes.

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来源期刊
Defence Technology(防务技术)
Defence Technology(防务技术) Mechanical Engineering, Control and Systems Engineering, Industrial and Manufacturing Engineering
CiteScore
8.70
自引率
0.00%
发文量
728
审稿时长
25 days
期刊介绍: Defence Technology, a peer reviewed journal, is published monthly and aims to become the best international academic exchange platform for the research related to defence technology. It publishes original research papers having direct bearing on defence, with a balanced coverage on analytical, experimental, numerical simulation and applied investigations. It covers various disciplines of science, technology and engineering.
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