Recent progress on gold nanoparticle biosensors monitored water quality: Insights on diversified contaminants and functionalization paradigms

IF 2.8 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC Micro and Nano Engineering Pub Date : 2024-05-18 DOI:10.1016/j.mne.2024.100261
Parth Malik , Ruma Rani , Rachna Gupta , Rakesh Kumar Ameta , Tapan Kumar Mukherjee
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Abstract

Over the past few years, water quality monitoring has swiftly emerged as a thrust area for most of the developing nations. Despite its renewable essence, incessant industrialization and urbanization have depleted the natural water resources, culminating in adverse impact on potable water quality. As a consequence, reliable technologies with utmost sensitivity and accurate predictions vis-à-vis authentic qualitative standards are urgently needed. Herein, interest in using gold nanoparticles (Au NPs) biosensors to gauge the qualitative profile of water resources has been quite significant. Major fascinations for Au NPs biosensing driven water quality monitoring are steadfast preparation methodologies, well-understood mechanisms for size-shape modulation and inert sensitivity manifested remarkable functionalization abilities. The size-shape modulated functionalization advances for Au NPs are the dynamic outcomes of their quantum effects, anchored via single or multidimensional quantum confinements (QCs). Morphologies as vibrant as rod, spherical, cylindrical, shells and combinatorial regime have been the backbone aspects of Au NPs based biosensors. With such insights, the present article focuses on last decade noted advances aimed at Au NPs biosensors assessed water quality. The studies discussed herewith were retrieved from Pubmed using the keywords, “Gold Nanoparticle Biosensors for Water Quality Monitoring”. The knowledge shared herein could consolidate the fabrication of future Au nanomaterials based sensing technologies vis-à-vis functionalization mechanisms, cost considerations, precision aspects, integrated possibilities and long-term cautions.

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监测水质的金纳米粒子生物传感器的最新进展:关于多样化污染物和功能化范例的见解
在过去几年里,水质监测已迅速成为大多数发展中国家的重点领域。尽管水是可再生的,但持续的工业化和城市化耗尽了天然水资源,最终对饮用水水质造成了不利影响。因此,迫切需要具有最高灵敏度和准确预测真实水质标准的可靠技术。因此,人们对使用金纳米粒子(Au NPs)生物传感器来测量水资源的质量状况产生了浓厚的兴趣。金纳米粒子生物传感驱动水质监测的主要魅力在于其稳定的制备方法、广为人知的粒度形状调制机制和惰性灵敏度,以及显著的功能化能力。金氧化物尺寸形状调制功能化的进展是其量子效应的动态结果,通过单维或多维量子束缚(QC)实现。棒状、球状、圆柱状、壳状和组合体系等形态各异的金氧化物已成为基于金氧化物的生物传感器的支柱。有鉴于此,本文重点介绍了过去十年来在金氧化物生物传感器评估水质方面取得的显著进展。本文所讨论的研究均来自 Pubmed,关键词为 "用于水质监测的金纳米粒子生物传感器"。本文分享的知识可以从功能化机制、成本考虑、精度方面、综合可能性和长期注意事项等方面巩固未来基于金纳米材料的传感技术的制造。
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来源期刊
Micro and Nano Engineering
Micro and Nano Engineering Engineering-Electrical and Electronic Engineering
CiteScore
3.30
自引率
0.00%
发文量
67
审稿时长
80 days
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