Study on novel biphenyl chalcone scaffolds: A dual spectroscopic approach for efficient sensing of hydrazine with low concentration

European journal of chemistry (Print) Pub Date : 2023-06-30 DOI:10.5155/eurjchem.14.2.264-272.2380

P. Patel, S. Tandel, A. Deshmukh, Preksha Basant Patel

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引用次数: 1

Abstract

Hydrazine and its derivatives, as harmful substances, seriously risk the health of humans and the environment. On the basis of the admirable luminescent properties and low biological harmfulness of the biphenyl moiety, a biphenyl moiety can be combined with a naphthalene ring via the chalcone scaffold easily traced by a nucleophilic group. Therefore, biphenyl chalcones (BPCs) decorated with various naphthalene systems as fluorescent sensors for hydrazine are synthesised by Claisen-Schmidt condensation. The present work describes the comparative studies of two different protocols for the synthesis of three different BPCs. The structures of all novel BPCs were investigated by FT-IR, NMR, and HRMS spectroscopy. These BPCs show a red shift with a fluorescent peak and an enhancement in intensity with increasing solvent polarity from hexane to methanol. Methanol shows strong fluorescence emission; therefore, methanol is used as the solvent in hydrazine sensing experiments. The BPCs display fluorescent variation from yellow to blue fluorescence after binding with hydrazine. These BPCs sensors are able to identify hydrazine in a fast response rate and 5 min response time. The screening study of hydrazine in various soil samples by prepared BPCs is highly efficient. A study of the pH dependence of these probes shows excellent sensitivity in the pH range of 5 to 10.

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新型联苯查尔酮支架的研究:低浓度联氨高效检测的双光谱方法

肼及其衍生物作为一种有害物质，严重危害人类健康和环境。基于联苯部分令人钦佩的发光特性和低生物危害性，联苯部分可以通过亲核基团容易追踪的查尔酮支架与萘环结合。因此，通过克莱森-施密特缩合反应合成了以各种萘系修饰的联苯查尔酮（BPCs）作为肼的荧光传感器。本工作描述了合成三种不同原料药的两种不同方案的比较研究。通过FT-IR、NMR和HRMS对所有新型原料药的结构进行了研究。这些原料药显示出具有荧光峰的红移，并且随着从己烷到甲醇的溶剂极性的增加，强度增强。甲醇表现出强烈的荧光发射；因此，在肼传感实验中使用甲醇作为溶剂。在与肼结合后，原料药显示从黄色到蓝色荧光的荧光变化。这些BPCs传感器能够以快速响应速率和5分钟响应时间识别肼。用制备的原料药对不同土壤样品中的肼进行筛选研究是高效的。对这些探针的pH依赖性的研究显示，在5至10的pH范围内具有优异的灵敏度。

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European journal of chemistry (Print)

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