Title of article
Self-assembly of doped semiconductor nanocrystals leading to the formation of highly luminescent nanorods
Author/Authors
K. Manzoor، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2006
Pages
4
From page
3968
To page
3971
Abstract
Meso-scale self-assembly of doped semiconductor nanocrystals leading to the formation of monocrystalline nanorods showing enhanced
photo- and electro-luminescence properties are reported. Polycrystalline ZnS: Cu+–Al3+ nanoparticles of zinc-blended (cubic) structure with an
average size of 4 nm were aggregated in aqueous solution and grown into nanorods of length 400 nm and aspect ratio 12. Transmission
electron microscope (TEM) images indicate crystal growth mechanisms involving particle-to-particle oriented-attachment assisted by sulphur–
sulphur catenation leading to covalent-linkage. The nanorods exhibit self-assembly dependant luminescence properties such as quenching of the
lattice defect-related emissions accompanied by enhancement of dopant-related emission, efficient low-voltage electroluminescence (EL) and
super-linear voltage-brightness EL characteristics. This study demonstrates the technological importance of aggregation based self-assembly in
doped semiconductor nanosystems
Keywords
Nanostructures , semiconductors , luminescence
Journal title
Applied Surface Science
Serial Year
2006
Journal title
Applied Surface Science
Record number
1001935
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