Silicon nanoparticles from pulsed laser ablation
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Abstract
The research on silicon nanocrystals (SiNCs) has been considerably attractive for the scientist in the last decades due to the SiNCs’ significant size-dependent optical properties, and their potential for stimulated emission (Pavesi et al. 2000). The bright photoluminescence (PL) properties of SiNCs is mainly observed in visible regions of the spectrum (Wolkin et al. 1999). On the other hand, blue-luminescent SiNCs would provide a decrease in free carrier absorption and an increase in the stimulated emission (Švrček et al. 2006). These excellent properties and their biocompatible nature make SiNCs a promising candidate for applications such as light-emitting devices or energy sources, in biomedicine and photodynamic therapy (Walters et al. 2005; Stupca et al. 2007; Wang et al. 2008). Moreover, it was suggested that the production of SiNCs in colloidal suspension provides considerable advantages in optoelectronics applications due to the increased stimulated emission process (Luterova et al. 2016).