Enhanced emission properties of Au/SiO sub(2)/ZnO nanorod layered structure: effect of SiO sub(2) spacer layer and role of interfacial charge transfer

Enhanced emission properties of Au/SiO sub(2)/ZnO nanorod layered structure: effect of SiO sub(2) spacer layer and role of interfacial charge transfer

SiO sub(2) spacer layers of various thicknesses in between an Au and ZnO nanorod (NR) layer (Au/ZnO) have been introduced and the luminescence properties of the layered ensemble have been investigated. When ZnO NRs are grown directly on a granular Au layer, the ultraviolet (UV) emission of ZnO was e...

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Veröffentlicht in:RSC advances 2014-03, Vol.4 (30), p.15466-15473
Hauptverfasser: Mahanti, Moumita, Basak, Durga
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Schlagworte:
Charge transfer
Electron transfer
Emission
Gold
Nanostructure
Silicon dioxide
Spacers
Zinc oxide
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description SiO sub(2) spacer layers of various thicknesses in between an Au and ZnO nanorod (NR) layer (Au/ZnO) have been introduced and the luminescence properties of the layered ensemble have been investigated. When ZnO NRs are grown directly on a granular Au layer, the ultraviolet (UV) emission of ZnO was enhanced nearly 2 times due to surface plasmon resonance (SPR) mediated charge transfer between Au and ZnO. A significant improvement is observed when the SiO sub(2) spacer layer is introduced in between Au and ZnO. The UV/VIS emission intensity ratio of Au/SiO sub(2)/ZnO NRs' becomes similar to 6 times higher than that of the pristine ZnO NRs. A SPR mediated electron transfer from Au/SiO sub(2) to ZnO causes such an enhanced UV emission. The spacer diminishes the reverse electron transfer process from the conduction band of ZnO to the Fermi level of Au, a most competitive reason for PL quenching, which also accounts for the emission enhancement.
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source Royal Society Of Chemistry Journals 2008-
subjects Charge transfer
Electron transfer
Emission
Gold
Nanostructure
Silicon dioxide
Spacers
Zinc oxide
title Enhanced emission properties of Au/SiO sub(2)/ZnO nanorod layered structure: effect of SiO sub(2) spacer layer and role of interfacial charge transfer
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