Abstract
We report on a wet none thermal integration of the binary silicon-gold nano system. Instead of thermally based gas-solid procedures, we use charge exchange/injection-based procedures in a chemical wet environment. SEM and TEM imaging and EDX show 0-D gold-silicon coreshell structures with diameters ranging from 6 to 500 nm in addition to a variety of silicon and gold nano structures. Optical and florescence spectroscopy show that colloids exhibit strong red luminescence and plasmonic resonance in the visible. Mie theory analysis of light scattering is in agreement with the optical observation. The results and procedures are discussed in terms of the relative electron/hole affinity, Schottky potential barrier, strength of the metal-silicon bond, as well as the surface diffusion of metal atoms or clusters on the interface of the constituent materials. Integration of gold and silicon, at the nanoscale in the form core-shell architecture affords the functionalities and attributes of plasmonic light scattering imaging and fluorescence imaging that would be useful for a wide variety of applications, including optical filters, sensing, therapeutics and tracking, and cancer therapy.
Highlights
In bulk Si-metal integration, physical processes involving deposition and thermal annealing are used to robustly attach a thin transition metal layer to silicon surface as a cladding or coating
It is interesting to integrate the binary silicon-gold system in the nanoscale regime since such integration may afford a double functionality of plasmonics and luminescence, which would be useful scitation.org/journal/adv for a wide variety of applications, including optical filters, sensing, therapeutics and tracking, and cancer therapy
We examine the prospect of using charge exchange/injection-based procedures, in a chemical wet environment instead of thermal based procedure, to synthesize freestanding nano gold-silicon core shell architectures
Summary
In bulk Si-metal integration, physical processes involving deposition and thermal annealing are used to robustly attach a thin transition metal layer to silicon surface as a cladding or coating. It is interesting to integrate the binary silicon-gold system in the nanoscale regime since such integration may afford a double functionality of plasmonics and luminescence, which would be useful scitation.org/journal/adv for a wide variety of applications, including optical filters, sensing, therapeutics and tracking, and cancer therapy.
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