Biodegradable porous silicon nanotubes (pSiNTs), functionalized with primary amine moieties via the use of 3-aminopropyltriethoxysilane (APTES), is demonstrated as a template for formation of platinum nanocrystals (Pt NCs) (1-3 nm). Transmission electron microscopy-energy dispersive X-ray analysis (TEM-EDX) indicates a relatively high and tunable concentration of Pt uniformly immobilized on a given nanotube (wt % Pt: 20-60%). In vitro viability and cellular uptake studies are consistent with a time-dependent toxicity of Pt NCs-pSiNTs against HeLa cells that is influenced by the degradation kinetics of the pSiNTs; internalization of the composites inside the cells exerts cellular damage in an apoptotic manner, therefore suggesting promising future applications in anticancer treatments.
Keywords: anticancer; nanomedicine; nanotube; platinum nanocrystals; porous silicon.