Synthesis of 5-nitrovanillin in low temperature as cyanide anion sensor

Acta Chimica Asiana Pub Date : 2021-06-05 DOI:10.29303/ACA.V4I1.46
R. Rahmawati, Syarifa Wahidah Al Idrus, S. Supriadi, Lalu Sulman
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引用次数: 2

Abstract

In the synthesis of the organic sensor, the molecular structure will affect the ability of a compound to be used as a colorimetric chemosensor. Here, we present a simple synthesis technique for 5-nitrovanillin. It has been successfully synthesized using nitric acid as a source of nitro groups. Dichloromethane DCM was used as a solvent, and the synthesis was carried out at low temperatures (under 5°C). The method produces a good yield. The nitro group attached to the structure of the chemosensor plays a role in prolonging the electron delocalization. Its effect is in the process of anion recognition by the chemosensor. The formation of a sensor-analyte complex between the chemosensor and anion produces a color change in the solution.
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低温合成5-硝基香兰素作为氰化物阴离子传感器
在有机传感器的合成中,分子结构将影响化合物作为比色化学传感器的能力。本文介绍了一种简单的5-硝基香兰素合成方法。以硝酸为硝基源,成功地合成了它。以二氯甲烷DCM为溶剂,在低温(5℃以下)下进行合成。这种方法收率很高。附着在化学传感器结构上的硝基起到了延长电子离域的作用。它的作用是在化学传感器识别阴离子的过程中。在化学传感器和阴离子之间形成传感器-分析物复合物,使溶液发生颜色变化。
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Acta Chimica Asiana
Acta Chimica Asiana
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