用于亚硝酸根阴离子的基于高选择性银纳米颗粒的无标记比色传感器。

Highly selective silver nanoparticles based label free colorimetric sensor for nitrite anions.

作者信息

Kumar V Vinod, Anthony Savarimuthu Philip

机构信息

School of Chemical and Biotechnology, SASTRA University, Thanjavur 613402, Tamil Nadu, India.

出版信息

Anal Chim Acta. 2014 Sep 9;842:57-62. doi: 10.1016/j.aca.2014.06.028. Epub 2014 Jun 19.

DOI:10.1016/j.aca.2014.06.028

PMID:25127652

Abstract

Highly selective label free colorimetric sensor based on AgNPs stabilized by phenolic chelating ligand, N,N'-bis(2-hydroxybenzyl)-1,2-diaminobenzene (1), for NO(2-) anions has been developed. Addition of NO(2-) showed selective decolourisation of brownish yellow colour of 1-AgNPs with the detection limit of 10(-7)M. Absorption studies showed the complete disappearance of 1-AgNPs peak at 426 nm due to the conversion of AgNPs to silver ions. The presence silver ions were confirmed by white precipitates of AgCl formation with NaCl. The interference studies confirmed the high selectivity of NO(2-) sensing in presence of anions as well as cations by 1-AgNPs. A linear relationship was observed between the change of absorption and concentration of NO(2-). The present approach could be performed at room temperature and ambient conditions. The practical applications of 1-AgNPs for selective sensing of NO(2-) in different water samples such as ground, river, pond and tap water have also been demonstrated.

摘要

基于由酚类螯合配体N,N'-双(2-羟基苄基)-1,2-二氨基苯(1)稳定的AgNPs开发了一种用于NO(2-)阴离子的高选择性无标记比色传感器。加入NO(2-)会使1-AgNPs的棕黄色选择性褪色，检测限为10(-7)M。吸收研究表明，由于AgNPs转化为银离子，426nm处1-AgNPs的峰完全消失。通过与NaCl形成AgCl白色沉淀证实了银离子的存在。干扰研究证实了1-AgNPs在存在阴离子和阳离子的情况下对NO(2-)传感具有高选择性。观察到吸收变化与NO(2-)浓度之间存在线性关系。本方法可在室温及环境条件下进行。还展示了1-AgNPs在不同水样（如地下水、河水、池塘水和自来水）中选择性传感NO(2-)的实际应用。

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用于亚硝酸根阴离子的基于高选择性银纳米颗粒的无标记比色传感器。

Highly selective silver nanoparticles based label free colorimetric sensor for nitrite anions.

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