Lu Hou, Ping-Shan Wen, Jun-Chang Xue, Yue Jiang, Heng-Ye Li, Zhong-Xia Wang, Guo-Qiang Hou, Fen-Ying Kong and Wei Wang
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引用次数: 0
Abstract
The development of simple, rapid, and sensitive techniques for quantifying toxic heavy metal ions is crucial due to their risks to human and environmental health. Herein, a protoporphyrin-functionalized reduced graphene oxide (PP-rGO) nanocomposite was designed as a new electrochemical sensing material for the sensitive determination of lead ions (Pb2+). The nanocomposite was prepared by simple hydrothermal treatment of PP-GO under alkaline conditions and was then examined by UV–vis spectroscopy and transmission electron microscopy. Based on the coordination interaction between rGO, PP, and Pb2+, a PP-rGO nanocomposite-modified electrode displayed robust analytical performance for Pb2+ determination. Under the optimal conditions, the concentration of Pb2+ varied linearly with the voltammetric peak current in the range of 0.1–100 ng mL−1, with a low detection limit of 0.03 ng mL−1. In addition, the fabricated sensor was shielded from other common metal ions, except copper ions. Successful application in tap and lake water samples demonstrated its practical utility.
由于有毒重金属离子对人类和环境健康的风险,开发简单、快速、敏感的定量技术至关重要。本文设计了一种原卟啉功能化还原氧化石墨烯(PP-rGO)纳米复合材料,作为灵敏测定铅离子(Pb2+)的新型电化学传感材料。在碱性条件下对PP-GO进行简单水热处理,制备了纳米复合材料,并用紫外可见光谱和透射电镜对其进行了表征。基于rGO、PP和Pb2+之间的配位相互作用,PP-rGO纳米复合修饰电极对Pb2+的测定具有良好的分析性能。在最佳条件下,Pb2+浓度随伏安峰值电流在0.1 ~ 100 ng mL−1范围内呈线性变化,最低检出限为0.03 ng mL−1。此外,除了铜离子外,该传感器还屏蔽了其他常见金属离子。在自来水和湖泊水样中的成功应用证明了该方法的实用性。
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