Strong 1.54 μm cathodoluminescence from core-shell structures of silicon nanoparticles and erbium

Strong 1.54 μm cathodoluminescence from core-shell structures of silicon nanoparticles and erbium

We report on the development of efficient infrared-active core-shell Er2O3-Si nanoparticle architecture. Sub 3-nm H-terminated Si nanoparticles are used to reduce/deposit Er3+ ions on the nanoparticles, which in an aqueous environment simultaneously oxidize to produce the core-shells. Our results sh...

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Veröffentlicht in:Applied physics letters 2016-12, Vol.109 (26)
Hauptverfasser: Hoang, Tuan, Elhalawany, Noha, Enders, Brian, Bahceci, Ersin, Abuhassan, Laila, Nayfeh, Munir H.
Format: Artikel
Sprache:eng
Schlagworte:
Amorphous materials
Amorphous silicon
Applied physics
Aqueous environments
Architecture
Cathodoluminescence
Core-shell structure
Dipoles
Energy transfer
Erbium
Erbium oxide
Interaction models
Nanoparticles
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Zusammenfassung:We report on the development of efficient infrared-active core-shell Er2O3-Si nanoparticle architecture. Sub 3-nm H-terminated Si nanoparticles are used to reduce/deposit Er3+ ions on the nanoparticles, which in an aqueous environment simultaneously oxidize to produce the core-shells. Our results show strong cathodoluminance at 1543 nm while being able to resolve the Stark splitting. The strong luminescence afforded by the core-shell architecture in which the Si-Er interspacing drops appreciably supports a sensitive interspacing-dependent dipole-dipole energy transfer interaction model, while the hydrogenated silicon-core allows increased loading and reduced segregation of Er as in amorphous silicon material. The room temperature-wet procedure, with pre-prepared and -sorted Si nanostructures affords promising applications in electronic and optical technologies.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.4972777