V. V. Solovyev scite author profile

Crystalline silicon (Si) nanoparticles present an extremely promising object for bioimaging based on photoluminescence (PL) in the visible and near-infrared spectral regions, but their efficient PL emission in aqueous suspension is typically observed after wet chemistry procedures leading to residual toxicity issues. Here, we introduce ultrapure laser-synthesized Si-based quantum dots (QDs), which are water-dispersible and exhibit bright exciton PL in the window of relative tissue transparency near 800 nm. Based on the laser ablation of crystalline Si targets in gaseous helium, followed by ultrasound-assisted dispersion of the deposited films in physiological saline, the proposed method avoids any toxic by-products during the synthesis. We demonstrate efficient contrast of the Si QDs in living cells by following the exciton PL. We also show that the prepared QDs do not provoke any cytoxicity effects while penetrating into the cells and efficiently accumulating near the cell membrane and in the cytoplasm. Combined with the possibility of enabling parallel therapeutic channels, ultrapure laser-synthesized Si nanostructures present unique object for cancer theranostic applications.

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Photoluminescent biocompatible silicon nanoparticles for cancer theranostic applications

Осминкина

Tamarov

Sviridov

et al. 2012

Journal of Biophotonics

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Silicon nanoparticles (SiNPs) obtained by mechanical grinding of porous silicon have been used for visualization of living cells in vitro. It was found that SiNPs could penetrate into the cells without any cytotoxic effect up to the concentration of 100 μg/ml. The cell cytoplasm was observed to be filled by SiNPs, which exhibited bright photoluminescence at 1.6 eV. SiNPs could also act as photosensitizers of the singlet oxygen generation, which could be used in the photodynamic therapy of cancer. These properties of SiNPs are discussed in view of possible applications in theranostics (both in therapy and in diagnostics).

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Nanoparticles prepared from porous silicon nanowires for bio-imaging and sonodynamic therapy

et al. 2014

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Evaluation of cytotoxicity, photoluminescence, bio-imaging, and sonosensitizing properties of silicon nanoparticles (SiNPs) prepared by ultrasound grinding of porous silicon nanowires (SiNWs) have been investigated. SiNWs were formed by metal (silver)-assisted wet chemical etching of heavily boron-doped (100)-oriented single crystalline silicon wafers. The prepared SiNWs and aqueous suspensions of SiNPs exhibit efficient room temperature photoluminescence (PL) in the spectral region of 600 to 1,000 nm that is explained by the radiative recombination of excitons confined in small silicon nanocrystals, from which SiNWs and SiNPs consist of. On the one hand, in vitro studies have demonstrated low cytotoxicity of SiNPs and possibilities of their bio-imaging applications. On the other hand, it has been found that SiNPs can act as efficient sensitizers of ultrasound-induced suppression of the viability of Hep-2 cancer cells.

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High-affinity interaction between interleukin-11 and S100P protein

Kazakov

Соколов

Rastrygina

et al. 2015

Biochemical and Biophysical Research Communications

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Vitamin B12b enhances the cytotoxicity of dithiothreitol

Solovieva

Solovyev

Kudryavtsev

et al. 2008

Free Radical Biology and Medicine

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V. V. Solovyev

Laser-synthesized oxide-passivated bright Si quantum dots for bioimaging

Photoluminescent biocompatible silicon nanoparticles for cancer theranostic applications

Nanoparticles prepared from porous silicon nanowires for bio-imaging and sonodynamic therapy

High-affinity interaction between interleukin-11 and S100P protein

Vitamin B12b enhances the cytotoxicity of dithiothreitol

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