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Kim, T. H.
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (7/7 displayed)
- 2021In-plane quasi-single-domain BaTiO<sub>3</sub> via interfacial symmetry engineeringcitations
- 2020Highly ordered lead-free double perovskite halides by designcitations
- 2012Resistive switching in high-k dielectrics for non-volatile memory applications
- 2012Strain relaxation behaviour in germanium-on-insulator fabri-cated by ion implantation
- 2009Gold bead-strings in silica nanowirescitations
- 2008Erbium emission from nanoengineered silicon surfacecitations
- 2007Oscillating cracks in glassy films on silicon substratescitations
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article
Erbium emission from nanoengineered silicon surface
Abstract
<p>Optically active SiO <sub>x</sub> nanowires were grown on silicon by ion-implanting it with metallic impurities and annealed at 1100 °C in an Ar ambient. The implanted metals precipitate on the silicon surface and act as catalysts for nanowire growth. Ion implantation of erbium into silicon and subsequent heating in an argon ambient resulted in selective nucleation and growth of optically active silica nanowires. The bottom-up nanowire growth, mediated by vapor liquid solid mechanism, was also demonstrated for a multimetal (Au:Er) implant combinations in Si. The role of Er as a catalyst and dopant resulted in optically active silica nanowires that exhibited photoluminescence emission at 1.53 μm from an Er <sup>3+</sup> intra-4f transition. Time resolved photoluminescence (PL) from these nanostructures indicated a luminescence lifetime of 24 ms, larger than that generally observed for Er-doped bulk silica. This increase in luminescence lifetime is attributed to a reduction in the optical density of states of Er in the nanowire samples. Infrared optical emission from erbium-doped silica nanowires on silicon holds a great potential for implementing wavelength controlled optical nanoswitches, photoresponsive devices and sensitive integrated biosensors.</p>