Triptycene-Derived Photoresponsive Fluorescent Azo-Polymer as Chemosensor for Picric Acid Detection

Mosim Ansari; Ranajit Bera; Snehasish Mondal; Neeladri Das

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Triptycene-Derived Photoresponsive Fluorescent Azo-Polymer as Chemosensor for Picric Acid Detection

机译：三萜烯衍生的光敏荧光偶氮聚合物作为用于苦味酸检测的化学传感器

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Two new triptycene-based azobenzene-functionalized polymers (TBAFPs) have been synthesized using the well-known Pd-catalyzed Sonogashira cross-coupling polycondensation reaction between 2,6-diethynyltriptycene and (meta or para) dibromo-azobenzenes. Enhancement of the fluorescent emission intensity was observed upon trans → cis isomerization of ?N═N― linkage in TBAFPs. The cis-lifetime of TBAFP1 is rather long (greater than 2 days). The resulting materials were tested as a potential chemosensor for the detection of picric acid (PA)—a water pollutant as well as chemical constituent of explosives used in warfare. PA was found to interact strongly with TBAFPs, which led to significant quenching of the latter’s fluorescence emission intensities. The binding constants are in the order of 105 M–1. TBAFPs were also able to detect PA in nanomolar concentrations.

机译：使用众所周知的Pd催化的2,6-二乙炔基三并茂与（间或对）二溴-偶氮苯之间的Sondashira交叉偶联缩聚反应，已经合成了两种新的基于三茂铁的偶氮苯官能化聚合物（TBAFP）。当TBAFPs中的？N═N-键的反式→顺式异构化时，观察到荧光发射强度的增强。 TBAFP1的顺式寿命相当长（大于2天）。测试所得的材料作为潜在的化学传感器，用于检测苦味酸（PA）–一种水污染物以及用于战争的炸药的化学成分。发现PA与TBAFP强烈相互作用，从而导致后者的荧光发射强度显着淬灭。结合常数约为105 M-1。 TBAFP还能够检测纳摩尔浓度的PA。

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《ACS Omega 》 |2019年第5期| 共10页
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Mosim Ansari; Ranajit Bera; Snehasish Mondal; Neeladri Das;
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Triptycene-Derived Photoresponsive Fluorescent Azo-Polymer as Chemosensor for Picric Acid Detection

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