Multifunctional AuAg-doping Prussian Blue-based MOF: Enhanced colorimetric catalytic activities and amplified SERS signals for bacteria discrimination and detection

New strategy of a rapid, sensitive bacteria detection is highly desirable. Constructing a dual-mode colorimetric/surface-enhanced Raman scattering (SERS) biosensor is key to obtain highly sensitive discriminating and detecting of different pathogen bacteria with high accuracy. Herein, we developed a...

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Published in:Sensors and actuators. B, Chemical Chemical, 2023-11, Vol.394, p.134279, Article 134279
Main Authors: Cai, Jianhong, Lin, Yongjian, Yu, Xiuwen, Yang, Yingqi, Hu, Yuqing, Gao, Lele, Xiao, Haichuan, Du, Jiarui, Wang, Haonan, Zhong, Xing, Sun, Pinghua, Liang, Xujing, Zhou, Haibo, Cai, Huaihong
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Language:English
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Bacteria detection
Colorimetric/SERS sensing
Multifunctional nanozyme
Nanozyme amplification
Prussian Blue-analogic MOF
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cited_by cdi_FETCH-LOGICAL-c297t-8fa5441104ebbc8458853f463471f7c4277b0d9bdf070453285116afff32f1863
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container_start_page 134279
container_title Sensors and actuators. B, Chemical
container_volume 394
creator Cai, Jianhong
Lin, Yongjian
Yu, Xiuwen
Yang, Yingqi
Hu, Yuqing
Gao, Lele
Xiao, Haichuan
Du, Jiarui
Wang, Haonan
Zhong, Xing
Sun, Pinghua
Liang, Xujing
Zhou, Haibo
Cai, Huaihong
description New strategy of a rapid, sensitive bacteria detection is highly desirable. Constructing a dual-mode colorimetric/surface-enhanced Raman scattering (SERS) biosensor is key to obtain highly sensitive discriminating and detecting of different pathogen bacteria with high accuracy. Herein, we developed a multifunctional colorimetric catalytic nanozyme (AuAg@PB MOF) composed of AuAg-doping Prussian Blue analogue-based metal-organic framework (MOF) that fabricated by self-assembled sheet growth of Ag-etched silver-coated gold nanoparticles (Au@Ag NPs) mediated by addition of ferricyanide (K3[Fe(CN)6]). AuAg@PB MOF displays ultrahigh peroxidase-mimicking activity, enhanced colorimetric signal brightness, and notably SERS enhancement. Through optimizing its Fe-doping level, peroxidase-like activity of AuAg@PB MOF is approximately 1900-fold higher than that of horseradish peroxidase (HRP), while its 3-fold enhancement in SERS signal compared with that of gold nanoparticles (Au NPs). Integrated with nanozyme-based sandwich system that made of bacteria/4-MPBA (4-mercaptophenylboronic acid)/AuAg@PB MOF, this dual-modal biosensor achieves a highly sensitive colorimetric assay of bacteria with a lower limit of detection (6 CFU/mL), and simultaneously discriminate E. coli and S. aureus by bacterial “fingerprints” spectra. Furthermore, this proposed colorimetric assay was combined with a smartphone readout-sensing platform for determining bacteria with ultra-sensitivity (2 CFU/mL). This work exhibits a novel colorimetric nanozyme used in dual-mode colorimetric/SERS sensing of bacteria. •Dual-mode colorimetric/SERS sensing of bacteria was achieved.•AuAg@PB MOF nanozymes exhibited high peroxidase-mimicking activities.•AuAg@PB MOF exhibited enhanced colorimetric brightness and SERS signals.•A high sensitivity of bacteria detection was obtained by colorimetric assay.•Bacteria discrimination was achieved using bacterial SERS “fingerprints” spectra.
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Constructing a dual-mode colorimetric/surface-enhanced Raman scattering (SERS) biosensor is key to obtain highly sensitive discriminating and detecting of different pathogen bacteria with high accuracy. Herein, we developed a multifunctional colorimetric catalytic nanozyme (AuAg@PB MOF) composed of AuAg-doping Prussian Blue analogue-based metal-organic framework (MOF) that fabricated by self-assembled sheet growth of Ag-etched silver-coated gold nanoparticles (Au@Ag NPs) mediated by addition of ferricyanide (K3[Fe(CN)6]). AuAg@PB MOF displays ultrahigh peroxidase-mimicking activity, enhanced colorimetric signal brightness, and notably SERS enhancement. Through optimizing its Fe-doping level, peroxidase-like activity of AuAg@PB MOF is approximately 1900-fold higher than that of horseradish peroxidase (HRP), while its 3-fold enhancement in SERS signal compared with that of gold nanoparticles (Au NPs). 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Integrated with nanozyme-based sandwich system that made of bacteria/4-MPBA (4-mercaptophenylboronic acid)/AuAg@PB MOF, this dual-modal biosensor achieves a highly sensitive colorimetric assay of bacteria with a lower limit of detection (6 CFU/mL), and simultaneously discriminate E. coli and S. aureus by bacterial “fingerprints” spectra. Furthermore, this proposed colorimetric assay was combined with a smartphone readout-sensing platform for determining bacteria with ultra-sensitivity (2 CFU/mL). 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subjects Bacteria detection
Colorimetric/SERS sensing
Multifunctional nanozyme
Nanozyme amplification
Prussian Blue-analogic MOF
title Multifunctional AuAg-doping Prussian Blue-based MOF: Enhanced colorimetric catalytic activities and amplified SERS signals for bacteria discrimination and detection
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