Issue 3, 2024

Metallic nanostructure-based aptasensors for robust detection of proteins

Abstract

There is a significant need for fast, cost-effective, and highly sensitive protein target detection, particularly in the fields of food, environmental monitoring, and healthcare. The integration of high-affinity aptamers with metal-based nanomaterials has played a crucial role in advancing the development of innovative aptasensors tailored for the precise detection of specific proteins. Aptamers offer several advantages over commonly used molecular recognition methods, such as antibodies. Recently, a variety of metal-based aptasensors have been established. These metallic nanomaterials encompass noble metal nanoparticles, metal oxides, metal-carbon nanotubes, carbon quantum dots, graphene-conjugated metallic nanostructures, as well as their nanocomposites, metal–organic frameworks (MOFs), and MXenes. In general, these materials provide enhanced sensitivity through signal amplification and transduction mechanisms. This review primarily focuses on the advancement of aptasensors based on metallic materials for the highly sensitive detection of protein targets, including enzymes and growth factors. Additionally, it sheds light on the challenges encountered in this field and outlines future prospects. We firmly believe that this review will offer a comprehensive overview and fresh insights into metallic nanomaterials-based aptasensors and their capabilities, paving the way for the development of innovative point-of-care (POC) diagnostic devices.

Graphical abstract: Metallic nanostructure-based aptasensors for robust detection of proteins

Article information

Article type
Review Article
Submitted
11 Sep. 2023
Accepted
29 Nov. 2023
First published
13 Des. 2023
This article is Open Access
Creative Commons BY-NC license

Nanoscale Adv., 2024,6, 747-776

Metallic nanostructure-based aptasensors for robust detection of proteins

N. Rabiee, S. Ahmadi, K. Rahimizadeh, S. Chen and R. N. Veedu, Nanoscale Adv., 2024, 6, 747 DOI: 10.1039/D3NA00765K

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