Laser- synthesized TiN nanoparticles as promising plasmonic alternative for biomedical applications

authors

  • Popov Anton
  • Tselikov Gleb
  • Dumas Noé
  • Berard Charlotte
  • Metwally Khaled
  • Jones Nicola
  • Al-Kattan Ahmed
  • Larrat Benoit
  • Braguer Diane
  • Mensah Serge
  • da Silva Anabela
  • Esteve Marie-Anne
  • Kabashin Andrei V

document type

ART

abstract

Exhibiting a red-shifted absorption/scattering feature compared to conventional plasmonic metals, titanium nitride nanoparticles (TiN NPs) look as very promising candidates for biomedical applications, but these applications are still underexplored despite the presence of extensive data for conventional plasmonic counterparts. Here, we report the fabrication of ultrapure, size-tunable TiN NPs by methods of femtosecond laser ablation in liquids and their biological testing. We show that TiN NPs demonstrate strong and broad plasmonic peak around 640-700 nm with a significant tail over 800 nm even for small NPs sizes (<7 nm). In vitro tests of laser-synthesized TiN NPs on cellular models evidence their low cytotoxicity and excellent cell uptake. We finally demonstrate a strong photothermal therapy effect on U87-MG cancer cell cultures using TiN NPs as sensitizers of local hyperthermia under near-infrared laser excitation. Based on absorption band in the region of relative tissue transparency and acceptable biocompatibility, laser-synthesized TiN NPs promise the advancement of biomedical modalities employing plasmonic effects, including absorption/scattering contrast imaging, photothermal therapy, photoacoustic imaging and SERS.

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