Molecules (Jan 2020)

Tailoring Photoluminescence from Si-Based Nanocrystals Prepared by Pulsed Laser Ablation in He-N<sub>2</sub> Gas Mixtures

  • Anastasiya A. Fronya,
  • Sergey V. Antonenko,
  • Alexander Yu. Kharin,
  • Andrei V. Muratov,
  • Yury A. Aleschenko,
  • Sergey I. Derzhavin,
  • Nikita V. Karpov,
  • Yaroslava I. Dombrovska,
  • Alexander A. Garmash,
  • Nikolay I. Kargin,
  • Sergey M. Klimentov,
  • Victor Yu. Timoshenko,
  • Andrei V. Kabashin

DOI
https://doi.org/10.3390/molecules25030440
Journal volume & issue
Vol. 25, no. 3
p. 440

Abstract

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Using methods of pulsed laser ablation from a silicon target in helium (He)-nitrogen (N2) gas mixtures maintained at reduced pressures (0.5−5 Torr), we fabricated substrate-supported silicon (Si) nanocrystal-based films exhibiting a strong photoluminescence (PL) emission, which depended on the He/N2 ratio. We show that, in the case of ablation in pure He gas, Si nanocrystals exhibit PL bands centered in the “red - near infrared” (maximum at 760 nm) and “green” (centered at 550 nm) spectral regions, which can be attributed to quantum-confined excitonic states in small Si nanocrystals and to local electronic states in amorphous silicon suboxide (a-SiOx) coating, respectively, while the addition of N2 leads to the generation of an intense “green-yellow” PL band centered at 580 nm. The origin of the latter band is attributed to a radiative recombination in amorphous oxynitride (a-SiNxOy) coating of Si nanocrystals. PL transients of Si nanocrystals with SiOx and a-SiNxOy coatings demonstrate nonexponential decays in the micro- and submicrosecond time scales with rates depending on nitrogen content in the mixture. After milling by ultrasound and dispersing in water, Si nanocrystals can be used as efficient non-toxic markers for bioimaging, while the observed spectral tailoring effect makes possible an adjustment of the PL emission of such markers to a concrete bioimaging task.

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