Sumana Pal, P. Chowdhury, Nandagopal Bar, Arindam Ray, Debrupa Biswas, G. Das
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引用次数: 0
摘要
本文试图合成一种高质量的荧光低聚物(2,4-二氨基甲苯),适合于探针的开发。本文介绍了一种新型独特的含有5-6个重复单元的低聚物模板(即水-醇共溶剂笼),具有显著的水溶性和强的光致发光性。与先前报道的类似结构聚合物相比,通过聚集诱导发射(AIE)实现了几乎16倍的荧光特性增强。现代技术如FTIR, NMR, PXRD, TGA, DTG, MALDI-TOF, MS, SEM, TEM, SAED和DLS被用来确认所需低聚物的形成。由于高量子产率(0.49)、窄发射带(半峰全宽= 45 nm)和合适的化学结构,该低聚物可作为砷种的荧光化学传感器。可重复的LOD (2.47 mM)和宽LDR (0-100 mM)值以及鲁棒性使该系统作为分析工具具有很高的相关性。从计算化学的角度了解了该低聚物的结构、光谱性质和传感能力。图形抽象
Improved version of oligo(2,4-diaminotoluene): synthesis, characterization, understanding, and application
Abstract Here, an attempt has been made to synthesize a high-quality fluorescent oligo(2,4-diaminotoluene) suitable for the development of a probe. The work introduces a new unique type of template (i.e., cage made of water-alcohol co-solvents) for oligomer containing 5–6 repeating units with remarkable water solubility and strong photoluminescence. Almost 16-fold enhancement of fluorescence properties compared to analogously structured polymer reported earlier has been achieved through aggregation-induced emission (AIE). Modern techniques like FTIR, NMR, PXRD, TGA, DTG, MALDI-TOF MS, SEM, TEM, SAED, and DLS are used to confirm the formation of the desired oligomer. Due to the high quantum yield (0.49), narrow emission band (full width at half maximum = 45 nm), and suitable chemical structure, the oligomer could be used as a potential fluorescent chemo-sensor for arsenic species. The reproducible LOD (2.47 mM) and wide LDR (0–100 mM) values along with robustness make the system highly relevant as an analytical tool. The structure, spectral properties, and sensing abilities of the oligomer have been understood in the light of computational chemistry. Graphical Abstract
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