Photoluminescence quenching of dye molecules near a resonant silicon nanoparticle

Zyuzin, Mikhail V.; Baranov, Denis G.; Escudero, Alberto; Chakraborty, Indranath; Tsypkin, Anton; Ushakova, Elena V.; Kraus, Florain; Parak, Wolfgang J.; Makarov, Sergey V.

Publicación: SCIENTIFIC REPORTS
2018
VL / 8 - BP / - EP /
abstract
Luminescent molecules attached to resonant colloidal particles are an important tool to study light-matter interaction. A traditional approach to enhance the photoluminescence intensity of the luminescent molecules in such conjugates is to incorporate spacer-coated plasmonic nanoantennas, where the spacer prevents intense non-radiative decay of the luminescent molecules. Here, we explore the capabilities of an alternative platform for photoluminescence enhancement, which is based on low-loss Mie-resonant colloidal silicon particles. We demonstrate that resonant silicon particles of spherical shape are more efficient for photoluminescence enhancement than their plasmonic counterparts in spacer-free configuration. Our theoretical calculations show that significant enhancement originates from larger quantum yields supported by silicon particles and their resonant features. Our results prove the potential of high-index dielectric particles for spacer-free enhancement of photoluminescence, which potentially could be a future platform for bioimaging and nanolasers.
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Access level

Gold DOAJ, Green published