The University of Southampton
×
Filter your search:
University of Southampton Institutional Repository

Enhancing the sensitivity and stability of electrochemical aptamer-based sensors by AuNPs@MXene nanocomposite for continuous monitoring of biomarkers

Enhancing the sensitivity and stability of electrochemical aptamer-based sensors by AuNPs@MXene nanocomposite for continuous monitoring of biomarkers
Enhancing the sensitivity and stability of electrochemical aptamer-based sensors by AuNPs@MXene nanocomposite for continuous monitoring of biomarkers

Electrochemical aptamer-based (E-AB) sensors offer exciting potential for real-time tracking of various biomarkers, such as proteins and small molecules, due to their exceptional selectivity and adaptability. However, most E-AB sensors rely on planar gold structures, which inherently limit their sensitivity and operational stability for continuous monitoring of biomarkers. Although gold nanostructures have recently enhanced E-AB sensor performance, no studies have explored the combination of gold nanostructure with other types of nanomaterials for continuous molecular monitoring. To fill this gap, we employed gold nanoparticles and MXene Ti3C2 (AuNPs@MXene), a versatile nanocomposite, in designing an E-AB sensor targeted at vascular endothelial growth factor (VEGF), a crucial human signaling protein. Remarkably, the AuNPs@MXene nanocomposite achieved over thirty-fold and half-fold increases in active surface area compared to bare and AuNPs-modified gold electrodes, respectively, significantly elevating the analytical capabilities of E-AB sensors during continuous operation. After a systematic optimization and characterization process, the newly developed E-AB sensor, powered by AuNPs@MXene nanocomposite, demonstrated both enhanced stability and heightened sensitivity. Overall, our findings open new avenues for the incorporation of nanocomposites in E-AB sensor design, enabling the creation of more sensitive and durable real-time monitoring systems.

Continuous measurement, Electrochemical aptamer-based sensor, MXene TiC, Real-time monitoring, Vascular endothelial growth factor
0956-5663
Duan, Haowei
9da40a15-f80e-4458-b873-85718f88e712
Tang, Shi Yang
1d0f15c6-2a3e-4bad-a3d8-fc267db93ed4
Goda, Keisuke
addd7dfb-c845-4d90-90ab-218e7a11deda
Li, Ming
734c0e4b-d284-491f-9cdc-ac394181bdf9
Duan, Haowei
9da40a15-f80e-4458-b873-85718f88e712
Tang, Shi Yang
1d0f15c6-2a3e-4bad-a3d8-fc267db93ed4
Goda, Keisuke
addd7dfb-c845-4d90-90ab-218e7a11deda
Li, Ming
734c0e4b-d284-491f-9cdc-ac394181bdf9

Duan, Haowei, Tang, Shi Yang, Goda, Keisuke and Li, Ming (2023) Enhancing the sensitivity and stability of electrochemical aptamer-based sensors by AuNPs@MXene nanocomposite for continuous monitoring of biomarkers. Biosensors and Bioelectronics, 246, [115918]. (doi:10.1016/j.bios.2023.115918).

Record type: Article

Abstract

Electrochemical aptamer-based (E-AB) sensors offer exciting potential for real-time tracking of various biomarkers, such as proteins and small molecules, due to their exceptional selectivity and adaptability. However, most E-AB sensors rely on planar gold structures, which inherently limit their sensitivity and operational stability for continuous monitoring of biomarkers. Although gold nanostructures have recently enhanced E-AB sensor performance, no studies have explored the combination of gold nanostructure with other types of nanomaterials for continuous molecular monitoring. To fill this gap, we employed gold nanoparticles and MXene Ti3C2 (AuNPs@MXene), a versatile nanocomposite, in designing an E-AB sensor targeted at vascular endothelial growth factor (VEGF), a crucial human signaling protein. Remarkably, the AuNPs@MXene nanocomposite achieved over thirty-fold and half-fold increases in active surface area compared to bare and AuNPs-modified gold electrodes, respectively, significantly elevating the analytical capabilities of E-AB sensors during continuous operation. After a systematic optimization and characterization process, the newly developed E-AB sensor, powered by AuNPs@MXene nanocomposite, demonstrated both enhanced stability and heightened sensitivity. Overall, our findings open new avenues for the incorporation of nanocomposites in E-AB sensor design, enabling the creation of more sensitive and durable real-time monitoring systems.

Text
1-s2.0-S0956566323008606-main - Version of Record
Available under License Creative Commons Attribution.
Download (5MB)

More information

Accepted/In Press date: 5 December 2023
e-pub ahead of print date: 9 December 2023
Published date: 11 December 2023
Keywords: Continuous measurement, Electrochemical aptamer-based sensor, MXene TiC, Real-time monitoring, Vascular endothelial growth factor

Identifiers

Local EPrints ID: 503375
URI: http://eprints.soton.ac.uk/id/eprint/503375
DOI: doi:10.1016/j.bios.2023.115918
ISSN: 0956-5663
PURE UUID: 82522acd-a1d1-451b-afe3-57bb9ce219bf
ORCID for Shi Yang Tang: ORCID iD orcid.org/0000-0002-3079-8880

Catalogue record

Date deposited: 30 Jul 2025 16:30
Last modified: 22 Aug 2025 02:40

Export record

Altmetrics

Contributors

Author: Haowei Duan
Author: Shi Yang Tang ORCID iD
Author: Keisuke Goda
Author: Ming Li

Download statistics

Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.

View more statistics

Library staff additional information
Atom RSS 1.0 RSS 2.0

Contact ePrints Soton: eprints@soton.ac.uk

ePrints Soton supports OAI 2.0 with a base URL of http://eprints.soton.ac.uk/cgi/oai2

This repository has been built using EPrints software, developed at the University of Southampton, but available to everyone to use.

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×