2006
DOI: 10.1021/la052659u
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Designed Fabrication of Ordered Porous Au/Ag Nanostructured Films for Surface-Enhanced Raman Scattering Substrates

Abstract: This article reports the designed preparation of two different kinds of novel porous metal nanostructured films, namely, an ordered macroporous Au/Ag nanostructured film and an ordered hollow Au/Ag nanostructured film. Different from previous reports, the presently proposed method can be conveniently used to control film structures by simply varying the experimental conditions. The morphology of these films has been characterized by scanning electron microscopy (SEM), and their performance as surface-enhanced … Show more

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Cited by 88 publications
(85 citation statements)
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“…Clearly, the AgNS/AuNP/NH2-cBN/Si(001) substrate showed higher stability than the silver film/cBN/Si(001) substrate prepared by the mirror reaction, which could be ascribed to the uniformity of the AgNS film and to the strong adhesion of the AgNS with the substrate. Moreover, compared with previous reports on other substrates, such as porous Au/Ag nanostructured-modified silica films, Au nanorod-modified indium-doped tin oxide films, and µAg powders/polymers, [25][26][27] the higher stability obtained in present AgNS/AuNP/ NH2-cBN/Si(001) can be mainly attributed to the extremely high physical and chemical stability of the cBN substrate. …”
Section: Detection Of Patp By the Sers Spectra On The Agns/aunp/nh2-csupporting
confidence: 39%
“…Clearly, the AgNS/AuNP/NH2-cBN/Si(001) substrate showed higher stability than the silver film/cBN/Si(001) substrate prepared by the mirror reaction, which could be ascribed to the uniformity of the AgNS film and to the strong adhesion of the AgNS with the substrate. Moreover, compared with previous reports on other substrates, such as porous Au/Ag nanostructured-modified silica films, Au nanorod-modified indium-doped tin oxide films, and µAg powders/polymers, [25][26][27] the higher stability obtained in present AgNS/AuNP/ NH2-cBN/Si(001) can be mainly attributed to the extremely high physical and chemical stability of the cBN substrate. …”
Section: Detection Of Patp By the Sers Spectra On The Agns/aunp/nh2-csupporting
confidence: 39%
“…[7,8] Macroporous materials have thus been exploited as exceptional substrates for surface-enhanced Raman scattering (SERS). [9][10][11][12][13] In the past decades, SERS has emerged as a new branch of the Raman technique, enabling the selective detection of various analytes at infinitesimal concentration and giving information on the structures and interactions or on the local environment at the molecular scale. The enhancement of the inherently weak Raman signal is due primarily to localized surface-plasmon resonance occurring at roughened or nanostructured noble metal surfaces.…”
Section: Introductionmentioning
confidence: 99%
“…1,2 This ultrasensitive analytical method has been widely applied on the life and environmental science, 3,4 which inspire a worldwide effort to explore its mechanism both theoretically and experimentally. Various substrates with rough surface were developed for SERS study, such as metallic colloids, 5,6 electrochemically roughened electrodes, 7,8 chemically deposited metal films, 9,10 chemically etched metal nanostructures, 11 and so on. Among these substrates, colloidal gold (Au) and silver (Ag) nanoparticles (NPs) have been widely used because of their easy preparation and strong enhancement for the SERS detection.…”
Section: Introductionmentioning
confidence: 99%