Electrochemical Deposition of Nanoparticulate Materials
Author(s)
Hope, GA
Liu, P
Li, H
Parker, GK
Griffith University Author(s)
Year published
2010
Metadata
Show full item recordAbstract
The reaction of selenous acid with template grown indium nanowires generates a poorly structured indium (I) selenide tubular product. The electron diffraction pattern from the sample exhibited no crystallinity. The Raman spectrum of the deposit is a broad band centred on 160 cm-1 that is not consistent with the known Raman spectra for indium selenides or elemental selenium. Annealing of the deposit yielded a polycrystalline tube structure where the tubes are similar in size to the as-deposited material. SAED of the grains that form these tubes revealed them to be individual indium (I) selenide crystals.The reaction of selenous acid with template grown indium nanowires generates a poorly structured indium (I) selenide tubular product. The electron diffraction pattern from the sample exhibited no crystallinity. The Raman spectrum of the deposit is a broad band centred on 160 cm-1 that is not consistent with the known Raman spectra for indium selenides or elemental selenium. Annealing of the deposit yielded a polycrystalline tube structure where the tubes are similar in size to the as-deposited material. SAED of the grains that form these tubes revealed them to be individual indium (I) selenide crystals.
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Conference Title
ELECTROCHEMISTRY IN MINERAL AND METAL PROCESSING 8 (EMMP 8)
Volume
28
Issue
6
Subject
Electrochemistry