Carbon-TiO 2 Hybrid Quantum Dots for Photocatalytic Inactivation of Gram-Positive and Gram-Negative Bacteria.
Xiuli DongYamin LiuAudrey F AdcockKirkland SheriffWeixiong LiangLiju YangYa-Ping SunPublished in: International journal of molecular sciences (2024)
Carbon-semiconductor hybrid quantum dots are classical carbon dots with core carbon nanoparticles doped with a selected nanoscale semiconductor. Specifically, on those with the nanoscale TiO 2 doping, denoted as C TiO2 -Dots, their synthesis and thorough characterization were reported previously. In this work, the C TiO2 -Dots were evaluated for their visible light-activated antibacterial function, with the results showing the effective killing of not only Gram-positive but also the generally more resistant Gram-negative bacteria. The hybrid dots are clearly more potent antibacterial agents than their neat carbon dot counterparts. Mechanistically, the higher antibacterial performance of the C TiO2 -Dots is attributed to their superior photoexcited state properties, which are reflected by the observed much brighter fluorescence emissions. Also considered and discussed is the possibility of additional contributions to the antibacterial activities due to the photosensitization of the nanoscale TiO 2 by its doped core carbon nanoparticles.