Revealing Lectin-Sugar Interactions with a Single Au@Ag Nanocube

Jingjing Shen; Lei Zhang; Li Liu; Bin Wang; Jieqiong Bai; Chao Shen; Yu Chen; Quli Fan; Shufen Chen; Weibing Wu; Xiaomiao Feng; Lianhui Wang; Wei Huang

doi:10.1021/acsami.9b15349

Revealing Lectin-Sugar Interactions with a Single Au@Ag Nanocube

Jingjing Shen, Lei Zhang, Li Liu, Bin Wang, Jieqiong Bai, Chao Shen, Yu Chen, Quli Fan, Shufen Chen, Weibing Wu, Xiaomiao Feng, Lianhui Wang, Wei Huang

Institute of Flexible Electronics

Research output: Contribution to journal › Article › peer-review

22 Scopus citations

Abstract

An individual nanoparticle-based plasmonic nanotechnology was used for real-time monitoring of lectin-sugar interactions, which could be designed as novel plasmonic nanobiosensors for the detection of trace concanavalin A (ConA) with high sensitivity and selectivity. The localized surface plasmon resonance (LSPR) spectra of Au@Ag nanocubes (NCs) are linearly shifted to a long wavelength with an increasing concentration of ConA. In fact, each Au@Ag NC can act as a nanobiosensor for the quantified detection of trace ConA, which enables the miniaturization of the biosensor system to nanoscale. Furthermore, the results demonstrated the perfect biosensing ability with the dual channel of dark-field microscopy images and LSPR spectra. We expect that this nanobiosensor system can provide an alternative important method for monitoring the specific binding of lectin-sugar at a single nanoparticle surface.

Original language	English
Pages (from-to)	40944-40950
Number of pages	7
Journal	ACS Applied Materials and Interfaces
Volume	11
Issue number	43
DOIs	https://doi.org/10.1021/acsami.9b15349
State	Published - 30 Oct 2019

Keywords

ConA
lectin-sugar interactions
nanobiosensor
plasmonics
single nanoparticle

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title = "Revealing Lectin-Sugar Interactions with a Single Au@Ag Nanocube",

abstract = "An individual nanoparticle-based plasmonic nanotechnology was used for real-time monitoring of lectin-sugar interactions, which could be designed as novel plasmonic nanobiosensors for the detection of trace concanavalin A (ConA) with high sensitivity and selectivity. The localized surface plasmon resonance (LSPR) spectra of Au@Ag nanocubes (NCs) are linearly shifted to a long wavelength with an increasing concentration of ConA. In fact, each Au@Ag NC can act as a nanobiosensor for the quantified detection of trace ConA, which enables the miniaturization of the biosensor system to nanoscale. Furthermore, the results demonstrated the perfect biosensing ability with the dual channel of dark-field microscopy images and LSPR spectra. We expect that this nanobiosensor system can provide an alternative important method for monitoring the specific binding of lectin-sugar at a single nanoparticle surface.",

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AU - Zhang, Lei

AU - Liu, Li

AU - Wang, Bin

AU - Bai, Jieqiong

AU - Shen, Chao

AU - Chen, Yu

AU - Fan, Quli

AU - Chen, Shufen

AU - Wu, Weibing

AU - Feng, Xiaomiao

AU - Wang, Lianhui

AU - Huang, Wei

PY - 2019/10/30

Y1 - 2019/10/30

N2 - An individual nanoparticle-based plasmonic nanotechnology was used for real-time monitoring of lectin-sugar interactions, which could be designed as novel plasmonic nanobiosensors for the detection of trace concanavalin A (ConA) with high sensitivity and selectivity. The localized surface plasmon resonance (LSPR) spectra of Au@Ag nanocubes (NCs) are linearly shifted to a long wavelength with an increasing concentration of ConA. In fact, each Au@Ag NC can act as a nanobiosensor for the quantified detection of trace ConA, which enables the miniaturization of the biosensor system to nanoscale. Furthermore, the results demonstrated the perfect biosensing ability with the dual channel of dark-field microscopy images and LSPR spectra. We expect that this nanobiosensor system can provide an alternative important method for monitoring the specific binding of lectin-sugar at a single nanoparticle surface.

AB - An individual nanoparticle-based plasmonic nanotechnology was used for real-time monitoring of lectin-sugar interactions, which could be designed as novel plasmonic nanobiosensors for the detection of trace concanavalin A (ConA) with high sensitivity and selectivity. The localized surface plasmon resonance (LSPR) spectra of Au@Ag nanocubes (NCs) are linearly shifted to a long wavelength with an increasing concentration of ConA. In fact, each Au@Ag NC can act as a nanobiosensor for the quantified detection of trace ConA, which enables the miniaturization of the biosensor system to nanoscale. Furthermore, the results demonstrated the perfect biosensing ability with the dual channel of dark-field microscopy images and LSPR spectra. We expect that this nanobiosensor system can provide an alternative important method for monitoring the specific binding of lectin-sugar at a single nanoparticle surface.

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Revealing Lectin-Sugar Interactions with a Single Au@Ag Nanocube

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