Synthesis of Au NP@MoS2 Quantum Dots Core@Shell Nanocomposites for SERS Bio-Analysis and Label-Free Bio-Imaging

Synthesis of Au NP@MoS2 Quantum Dots Core@Shell Nanocomposites for SERS Bio-Analysis and Label-Free Bio-Imaging

In this work, we report a facile method using MoS2 quantum dots (QDs) as reducers to directly react with HAuCl4 for the synthesis of Au nanoparticle@MoS2 quantum dots (Au NP@MoS2 QDs) core@shell nanocomposites with an ultrathin shell of ca. 1 nm. The prepared Au NP@MoS2 QDs reveal high surface enhan...

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Main Authors: Xixi Fei, Zhiming Liu, Yuqing Hou, Yi Li, Guangcun Yang, Chengkang Su, Zhen Wang, Huiqing Zhong, Zhengfei Zhuang, Zhouyi Guo
Format: Article
Language:English
Published: MDPI AG 2017-06-01
Series:Materials
Subjects:
MoS2 quantum dots
Au nanoparticles
surface enhanced Raman scattering
tumor cells
Online Access:http://www.mdpi.com/1996-1944/10/6/650
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spelling doaj-0fbcfff45aca4421b647be2ad1fe7d1b2020-11-24T23:52:55ZengMDPI AGMaterials1996-19442017-06-0110665010.3390/ma10060650ma10060650Synthesis of Au NP@MoS2 Quantum Dots Core@Shell Nanocomposites for SERS Bio-Analysis and Label-Free Bio-ImagingXixi Fei0Zhiming Liu1Yuqing Hou2Yi Li3Guangcun Yang4Chengkang Su5Zhen Wang6Huiqing Zhong7Zhengfei Zhuang8Zhouyi Guo9MOE Key Laboratory of Laser Life Science & SATCM Third Grade Laboratory of Chinese Medicine and Photonics Technology, College of Biophotonics, South China Normal University, Guangzhou 510631, Guangdong, ChinaMOE Key Laboratory of Laser Life Science & SATCM Third Grade Laboratory of Chinese Medicine and Photonics Technology, College of Biophotonics, South China Normal University, Guangzhou 510631, Guangdong, ChinaMOE Key Laboratory of Laser Life Science & SATCM Third Grade Laboratory of Chinese Medicine and Photonics Technology, College of Biophotonics, South China Normal University, Guangzhou 510631, Guangdong, ChinaMOE Key Laboratory of Laser Life Science & SATCM Third Grade Laboratory of Chinese Medicine and Photonics Technology, College of Biophotonics, South China Normal University, Guangzhou 510631, Guangdong, ChinaMOE Key Laboratory of Laser Life Science & SATCM Third Grade Laboratory of Chinese Medicine and Photonics Technology, College of Biophotonics, South China Normal University, Guangzhou 510631, Guangdong, ChinaMOE Key Laboratory of Laser Life Science & SATCM Third Grade Laboratory of Chinese Medicine and Photonics Technology, College of Biophotonics, South China Normal University, Guangzhou 510631, Guangdong, ChinaMOE Key Laboratory of Laser Life Science & SATCM Third Grade Laboratory of Chinese Medicine and Photonics Technology, College of Biophotonics, South China Normal University, Guangzhou 510631, Guangdong, ChinaMOE Key Laboratory of Laser Life Science & SATCM Third Grade Laboratory of Chinese Medicine and Photonics Technology, College of Biophotonics, South China Normal University, Guangzhou 510631, Guangdong, ChinaMOE Key Laboratory of Laser Life Science & SATCM Third Grade Laboratory of Chinese Medicine and Photonics Technology, College of Biophotonics, South China Normal University, Guangzhou 510631, Guangdong, ChinaMOE Key Laboratory of Laser Life Science & SATCM Third Grade Laboratory of Chinese Medicine and Photonics Technology, College of Biophotonics, South China Normal University, Guangzhou 510631, Guangdong, ChinaIn this work, we report a facile method using MoS2 quantum dots (QDs) as reducers to directly react with HAuCl4 for the synthesis of Au nanoparticle@MoS2 quantum dots (Au NP@MoS2 QDs) core@shell nanocomposites with an ultrathin shell of ca. 1 nm. The prepared Au NP@MoS2 QDs reveal high surface enhanced Raman scattering (SERS) performance regarding sensitivity as well as the satisfactory SERS reproducibility and stability. The limit of detection of the hybrids for crystal violet can reach 0.5 nM with a reasonable linear response range from 0.5 μM to 0.5 nM (R2 ≈ 0.974). Furthermore, the near-infrared SERS detection based on Au NP@MoS2 QDs in living cells is achieved with distinct Raman signals which are clearly assigned to the various cellular components. Meanwhile, the distinguishable SERS images are acquired from the 4T1 cells with the incubation of Au NP@MoS2 QDs. Consequently, the straightforward strategy of using Au NP@MoS2 QDs exhibits great potential as a superior SERS substrate for chemical and biological detection as well as bio-imaging.http://www.mdpi.com/1996-1944/10/6/650MoS2 quantum dotsAu nanoparticlessurface enhanced Raman scatteringtumor cells
collection DOAJ
language English
format Article
sources DOAJ
author Xixi Fei
Zhiming Liu
Yuqing Hou
Yi Li
Guangcun Yang
Chengkang Su
Zhen Wang
Huiqing Zhong
Zhengfei Zhuang
Zhouyi Guo
spellingShingle Xixi Fei
Zhiming Liu
Yuqing Hou
Yi Li
Guangcun Yang
Chengkang Su
Zhen Wang
Huiqing Zhong
Zhengfei Zhuang
Zhouyi Guo
Synthesis of Au NP@MoS2 Quantum Dots Core@Shell Nanocomposites for SERS Bio-Analysis and Label-Free Bio-Imaging
Materials
MoS2 quantum dots
Au nanoparticles
surface enhanced Raman scattering
tumor cells
author_facet Xixi Fei
Zhiming Liu
Yuqing Hou
Yi Li
Guangcun Yang
Chengkang Su
Zhen Wang
Huiqing Zhong
Zhengfei Zhuang
Zhouyi Guo
author_sort Xixi Fei
title Synthesis of Au NP@MoS2 Quantum Dots Core@Shell Nanocomposites for SERS Bio-Analysis and Label-Free Bio-Imaging
title_short Synthesis of Au NP@MoS2 Quantum Dots Core@Shell Nanocomposites for SERS Bio-Analysis and Label-Free Bio-Imaging
title_full Synthesis of Au NP@MoS2 Quantum Dots Core@Shell Nanocomposites for SERS Bio-Analysis and Label-Free Bio-Imaging
title_fullStr Synthesis of Au NP@MoS2 Quantum Dots Core@Shell Nanocomposites for SERS Bio-Analysis and Label-Free Bio-Imaging
title_full_unstemmed Synthesis of Au NP@MoS2 Quantum Dots Core@Shell Nanocomposites for SERS Bio-Analysis and Label-Free Bio-Imaging
title_sort synthesis of au np@mos2 quantum dots core@shell nanocomposites for sers bio-analysis and label-free bio-imaging
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2017-06-01
description In this work, we report a facile method using MoS2 quantum dots (QDs) as reducers to directly react with HAuCl4 for the synthesis of Au nanoparticle@MoS2 quantum dots (Au NP@MoS2 QDs) core@shell nanocomposites with an ultrathin shell of ca. 1 nm. The prepared Au NP@MoS2 QDs reveal high surface enhanced Raman scattering (SERS) performance regarding sensitivity as well as the satisfactory SERS reproducibility and stability. The limit of detection of the hybrids for crystal violet can reach 0.5 nM with a reasonable linear response range from 0.5 μM to 0.5 nM (R2 ≈ 0.974). Furthermore, the near-infrared SERS detection based on Au NP@MoS2 QDs in living cells is achieved with distinct Raman signals which are clearly assigned to the various cellular components. Meanwhile, the distinguishable SERS images are acquired from the 4T1 cells with the incubation of Au NP@MoS2 QDs. Consequently, the straightforward strategy of using Au NP@MoS2 QDs exhibits great potential as a superior SERS substrate for chemical and biological detection as well as bio-imaging.
topic MoS2 quantum dots
Au nanoparticles
surface enhanced Raman scattering
tumor cells
url http://www.mdpi.com/1996-1944/10/6/650
work_keys_str_mv AT xixifei synthesisofaunpmos2quantumdotscoreshellnanocompositesforsersbioanalysisandlabelfreebioimaging
AT zhimingliu synthesisofaunpmos2quantumdotscoreshellnanocompositesforsersbioanalysisandlabelfreebioimaging
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AT yili synthesisofaunpmos2quantumdotscoreshellnanocompositesforsersbioanalysisandlabelfreebioimaging
AT guangcunyang synthesisofaunpmos2quantumdotscoreshellnanocompositesforsersbioanalysisandlabelfreebioimaging
AT chengkangsu synthesisofaunpmos2quantumdotscoreshellnanocompositesforsersbioanalysisandlabelfreebioimaging
AT zhenwang synthesisofaunpmos2quantumdotscoreshellnanocompositesforsersbioanalysisandlabelfreebioimaging
AT huiqingzhong synthesisofaunpmos2quantumdotscoreshellnanocompositesforsersbioanalysisandlabelfreebioimaging
AT zhengfeizhuang synthesisofaunpmos2quantumdotscoreshellnanocompositesforsersbioanalysisandlabelfreebioimaging
AT zhouyiguo synthesisofaunpmos2quantumdotscoreshellnanocompositesforsersbioanalysisandlabelfreebioimaging
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