Assembly of graphene oxide and Au 0.7Ag 0.3 alloy nanoparticles on SiO 2: A new Raman substrate with ultrahigh signal-to-background ratio

Peng Chen; Zongyou Yin; Xiao Huang; Shixin Wu; Bo Liedberg; Hua Zhang

doi:10.1021/jp208486m

Assembly of graphene oxide and Au _0.7Ag _0.3 alloy nanoparticles on SiO ₂: A new Raman substrate with ultrahigh signal-to-background ratio

Peng Chen, Zongyou Yin, Xiao Huang, Shixin Wu, Bo Liedberg, Hua Zhang

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39 引用（Scopus）

摘要

Resonance Raman spectroscopy (RRS) often suffers from the large fluorescence background which obscures the much weaker Raman scattering. To address this fundamental problem, a novel Raman substrate has been fabricated by adsorption of Au _0.7Ag _0.3 alloy nanoparticles (NPs) on a graphene oxide (GO) coated SiO ₂ surface, which offers both excellent Raman enhancement and fluorescence quenching. Our experimental data reveal that a Raman to fluorescence background intensity ratio of 1.6 can be obtained for a highly fluorescent dye like Alexa fluor 488. Moreover, we demonstrate that the Raman enhancement mainly originates from the Au _0.7Ag _0.3 alloy NPs and that the fluorescence quenching mainly arises from the underlying functionalized GO (FGO) substrate.

源语言	英语
页（从-至）	24080-24084
页数	5
期刊	Journal of Physical Chemistry C
卷	115
期	49
DOI	https://doi.org/10.1021/jp208486m
出版状态	已出版 - 15 12月 2011
已对外发布	是

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abstract = "Resonance Raman spectroscopy (RRS) often suffers from the large fluorescence background which obscures the much weaker Raman scattering. To address this fundamental problem, a novel Raman substrate has been fabricated by adsorption of Au 0.7Ag 0.3 alloy nanoparticles (NPs) on a graphene oxide (GO) coated SiO 2 surface, which offers both excellent Raman enhancement and fluorescence quenching. Our experimental data reveal that a Raman to fluorescence background intensity ratio of 1.6 can be obtained for a highly fluorescent dye like Alexa fluor 488. Moreover, we demonstrate that the Raman enhancement mainly originates from the Au 0.7Ag 0.3 alloy NPs and that the fluorescence quenching mainly arises from the underlying functionalized GO (FGO) substrate.",

author = "Peng Chen and Zongyou Yin and Xiao Huang and Shixin Wu and Bo Liedberg and Hua Zhang",

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T1 - Assembly of graphene oxide and Au 0.7Ag 0.3 alloy nanoparticles on SiO 2

T2 - A new Raman substrate with ultrahigh signal-to-background ratio

AU - Chen, Peng

AU - Yin, Zongyou

AU - Huang, Xiao

AU - Wu, Shixin

AU - Liedberg, Bo

AU - Zhang, Hua

PY - 2011/12/15

Y1 - 2011/12/15

N2 - Resonance Raman spectroscopy (RRS) often suffers from the large fluorescence background which obscures the much weaker Raman scattering. To address this fundamental problem, a novel Raman substrate has been fabricated by adsorption of Au 0.7Ag 0.3 alloy nanoparticles (NPs) on a graphene oxide (GO) coated SiO 2 surface, which offers both excellent Raman enhancement and fluorescence quenching. Our experimental data reveal that a Raman to fluorescence background intensity ratio of 1.6 can be obtained for a highly fluorescent dye like Alexa fluor 488. Moreover, we demonstrate that the Raman enhancement mainly originates from the Au 0.7Ag 0.3 alloy NPs and that the fluorescence quenching mainly arises from the underlying functionalized GO (FGO) substrate.

AB - Resonance Raman spectroscopy (RRS) often suffers from the large fluorescence background which obscures the much weaker Raman scattering. To address this fundamental problem, a novel Raman substrate has been fabricated by adsorption of Au 0.7Ag 0.3 alloy nanoparticles (NPs) on a graphene oxide (GO) coated SiO 2 surface, which offers both excellent Raman enhancement and fluorescence quenching. Our experimental data reveal that a Raman to fluorescence background intensity ratio of 1.6 can be obtained for a highly fluorescent dye like Alexa fluor 488. Moreover, we demonstrate that the Raman enhancement mainly originates from the Au 0.7Ag 0.3 alloy NPs and that the fluorescence quenching mainly arises from the underlying functionalized GO (FGO) substrate.

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Assembly of graphene oxide and Au 0.7Ag 0.3 alloy nanoparticles on SiO 2: A new Raman substrate with ultrahigh signal-to-background ratio

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Assembly of graphene oxide and Au _0.7Ag _0.3 alloy nanoparticles on SiO ₂: A new Raman substrate with ultrahigh signal-to-background ratio