Hierarchical Hexagonal Boron Nitride Nanowall-Decorated Silicon Nanoparticles for Tunable Ink-Free Coloring

Abstract: Nanomaterials with tunable optical properties have emerged as active components for advanced nanophotonic devices. Herein, the fabrication of hierarchical nanostructures through the integration of various tunable nanomaterials for diverse applications remains a challenge. Here, a two-step process consisting of the synthesis of silicon nanoparticles (Si NPs) via laser ablation followed by plasma-enhanced chemical vapor deposition of hexagonal-boron-nitride (h-BN) nanowalls has been implemented to form hierarchi… Show more

“…1c) and its effect on their optical properties, we heated single NPs with laser radiation. For that, we chose an effective absorption wavelength for Fe and Au (350 nm) and analysed simultaneously the light scattering by a single NP in dark field geometry [41][42][43][44] before and during the laser heating (see the ESI †). Fig.…”

FeAu mixing for high-temperature control of light scattering at the nanometer scale

“…1c) and its effect on their optical properties, we heated single NPs with laser radiation. For that, we chose an effective absorption wavelength for Fe and Au (350 nm) and analysed simultaneously the light scattering by a single NP in dark field geometry [41][42][43][44] before and during the laser heating (see the ESI †). Fig.…”

FeAu mixing for high-temperature control of light scattering at the nanometer scale