Observing reduction of 4-nitrobenzenthiol on gold nanoparticles in situusing surface-enhanced Raman spectroscopy

In this article, reduction of 4-nitrobenzenthiol (4-NBT) on Au nanoparticles (NPs) was characterized using surface-enhanced Raman scattering (SERS). Plasmon-driven chemical transformation from 4-NBT dimering into p,p'-dimercaptoazobenzene (DMAB) has been investigated on the surface of Au NPs. T...

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Veröffentlicht in:	Physical chemistry chemical physics : PCCP 2013-08, Vol.15 (34), p.14196-14201
Hauptverfasser:	Ren, Xiaoqian, Tan, Enzhong, Lang, Xiufeng, You, Tingting, Jiang, Li, Zhang, Hongyan, Yin, Penggang, Guo, Lin
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Sprache:	eng
Schlagworte:	Borohydrides Catalysis Catalysts Chemical reactions Gold Lasers Nanoparticles Reduction
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creator	Ren, Xiaoqian Tan, Enzhong Lang, Xiufeng You, Tingting Jiang, Li Zhang, Hongyan Yin, Penggang Guo, Lin
description	In this article, reduction of 4-nitrobenzenthiol (4-NBT) on Au nanoparticles (NPs) was characterized using surface-enhanced Raman scattering (SERS). Plasmon-driven chemical transformation from 4-NBT dimering into p,p'-dimercaptoazobenzene (DMAB) has been investigated on the surface of Au NPs. The laser power-dependent SERS spectra of 4-NBT on the surface of Au substrates were studied, and show that the laser power has an influence on the SERS signals of 4-NBT on Au NPs and production of DMAB by a plasmon-driven surface-catalyzed chemical reaction tends to be much easier under relative high laser power. Furthermore, we have used simple and efficient Au substrates (gold NPs with a size around 45 nm) exhibiting both catalytic properties and SERS activities to monitor the catalytic reaction of surface catalytic reaction process with borohydride solution. The experiments prove that the nitro-to-amino group conversion could be completed by borohydride at ambient conditions on Au substrates. Illuminated with high laser power, 4-NBT molecules and already formed DMAB molecules are further reduced into 4-aminobenzenthiol (4-ABT) by the addition of borohydride, While with low laser power 4-NBT molecules are transformed into 4-ABT with DMAB as the intermediate, which proves Au NPs are a mild and promising catalyst. Our studies might be helpful in extending the understanding of chemical reactions of 4-NBT and related research as well as providing a new strategy synthesis of azo dyes and anilines.
doi_str_mv	10.1039/c3cp51385h
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Plasmon-driven chemical transformation from 4-NBT dimering into p,p'-dimercaptoazobenzene (DMAB) has been investigated on the surface of Au NPs. The laser power-dependent SERS spectra of 4-NBT on the surface of Au substrates were studied, and show that the laser power has an influence on the SERS signals of 4-NBT on Au NPs and production of DMAB by a plasmon-driven surface-catalyzed chemical reaction tends to be much easier under relative high laser power. Furthermore, we have used simple and efficient Au substrates (gold NPs with a size around 45 nm) exhibiting both catalytic properties and SERS activities to monitor the catalytic reaction of surface catalytic reaction process with borohydride solution. The experiments prove that the nitro-to-amino group conversion could be completed by borohydride at ambient conditions on Au substrates. Illuminated with high laser power, 4-NBT molecules and already formed DMAB molecules are further reduced into 4-aminobenzenthiol (4-ABT) by the addition of borohydride, While with low laser power 4-NBT molecules are transformed into 4-ABT with DMAB as the intermediate, which proves Au NPs are a mild and promising catalyst. 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source	Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects	Borohydrides Catalysis Catalysts Chemical reactions Gold Lasers Nanoparticles Reduction
title	Observing reduction of 4-nitrobenzenthiol on gold nanoparticles in situusing surface-enhanced Raman spectroscopy
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