Ikerketa-lerroak

  • Bioactive materials like hydrometallogeis displaying specific luminescent, rheological and antibacterial properties obtained through different synthetic approaches.
  • Catalytic Au subnanoclusters for therir study in organic transformations -Hybrid nanomaterials, as biocompatible nanoparticles or Plasmonic nanportaicles-semiconductors with potential photothermal and photodynamic properties for bacterial eradication and for elimination of pollutants in wastewater.
  • Materials displaying aggretion induced emission for the study of stimuli-responsive propetiers such as vapomechano- or thermochromic propeties.
  • NIR-active and biocompatible Au-Nanoclusters for the elimination of multidrug resistant bacteria.
  • Optical materials like TADF emitters for OLED fabrication; desing of next-generation multi-TADF emitters.
  • Plasmonic nanoparticles controlling their property-structure relationship.