Porous silicon photoluminescence modification by colloidal gold nanoparticles: Plasmonic, surface and porosity roles

Metal nanoparticles on semiconductors are of interest because of the tunable effect of the surface plasmon resonance on the physical properties of the semiconductor. In this work, colloidal gold nanoparticles obtained by two different methods, with an average size of 6.1±2.0nm and 5.0±2.0nm, were added to luminescent porous silicon by drop casting. The gold nanoparticles interact with porous silicon by modifying its optical properties such as photoluminescence. That being said, plasmon effects are not the only to be taken into account; as shown in this work, surface chemical modification and porosity also play a key role in the final performance of photoluminescence of a porous silicon–gold nanoparticle hybrid system. •A hybrid material consisting of porous silicon and gold nanoparticles was fabricated.•Porous silicon/gold nanoparticle hybrid material was made by drop casting.•Influence of plasmonics, surface chemical modification and porosity on the optical behavior of our material was analyzed.•Porosity is proposed as a parameter control to obtain the best effects on luminescence of the hybrid plasmonic material.