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Photoreduction of metal nanostructures on periodically proton exchanged MgO-doped lithium niobate crystals
Date Issued
2013-10-30
Date Available
2013-11-29T12:50:47Z
Abstract
Local reactivity on periodically proton exchanged lithium niobate (PPE:LN) surfaces is a promising route for the fabrication of regularly spaced nanostructures. Here, using MgO-doped PPE:LN templates, we investigate the influence of the doping on the nanostructure formation as a function of the proton exchange (PE) depth. The deposition is found to occur preferentially along the boundary between MgO-doped LN and the PE region when the PE depth is at least 1.73 μm, however, for
shallower depths, deposition occurs across the entire PE region. The results are found to be consistent with an increased photoconductivity of the MgO-doped LN.
shallower depths, deposition occurs across the entire PE region. The results are found to be consistent with an increased photoconductivity of the MgO-doped LN.
Sponsorship
Science Foundation Ireland
Other Sponsorship
DGPP
NANOREMEDIES
Programme for Research in Third Level Institutions (PRTLI) Cycle 5
European Regional Development Fund
Swedish Research Council
UCD Research
Type of Material
Journal Article
Publisher
AIP
Journal
Applied Physics Letters
Volume
103
Issue
18
Start Page
182904
Copyright (Published Version)
2013 AIP Publishing LLC
Language
English
Status of Item
Peer reviewed
This item is made available under a Creative Commons License
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Balobaid_et_al_Appl_Phys_Lett_2013.pdf
Size
795.14 KB
Format
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