Communications Chemistry (May 2023)

Ligand impact on reactive oxygen species generation of Au10 and Au25 nanoclusters upon one- and two-photon excitation

  • Hussein Fakhouri,
  • Martina Perić Bakulić,
  • Issan Zhang,
  • Hao Yuan,
  • Dipankar Bain,
  • Fabien Rondepierre,
  • Pierre-François Brevet,
  • Željka Sanader Maršić,
  • Rodolphe Antoine,
  • Vlasta Bonačić-Koutecký,
  • Dusica Maysinger

DOI
https://doi.org/10.1038/s42004-023-00895-5
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 10

Abstract

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Abstract In photodynamic therapy (PDT), light-sensitive photosensitizers produce reactive oxygen species (ROS) after irradiation in the presence of oxygen. Atomically-precise thiolate-protected gold nanoclusters are molecule-like nanostructures with discrete energy levels presenting long lifetimes, surface biofunctionality, and strong near-infrared excitation ideal for ROS generation in PDT. We directly compare thiolate-gold macromolecular complexes (Au10) and atomically-precise gold nanoclusters (Au25), and investigate the influence of ligands on their photoexcitation. With the ability of atomically-precise nanochemistry, we produce Au10SG10, Au10AcCys10, Au25SG18, and Au25AcCys18 (SG: glutathione; AcCys: N-acetyl-cysteine) fully characterized by high-resolution mass spectrometry. Our theoretical investigation reveals key factors (energetics of excited states and structural influence of surface ligands) and their relative importance in singlet oxygen formation upon one- and two-photon excitation. Finally, we explore ROS generation by gold nanoclusters in living cells with one- and two-photon excitation. Our study presents in-depth analyses of events within gold nanoclusters when photo-excited both in the linear and nonlinear optical regimes, and possible biological consequences in cells.