Photocatalytic Generation of Singlet Oxygen by Graphitic Carbon Nitride for Antibacterial Applications.
Davida Briana DuBoisIsabelle RiveraQiming LiuBingzhe YuKevin SingewaldGlenn L MillhauserChad SaltikovShaowei ChenPublished in: Materials (Basel, Switzerland) (2024)
Carbon-based functional nanocomposites have emerged as potent antimicrobial agents and can be exploited as a viable option to overcome antibiotic resistance of bacterial strains. In the present study, graphitic carbon nitride nanosheets are prepared by controlled calcination of urea. Spectroscopic measurements show that the nanosheets consist of abundant carbonyl groups and exhibit apparent photocatalytic activity under UV photoirradiation towards the selective production of singlet oxygen. Therefore, the nanosheets can effectively damage the bacterial cell membranes and inhibit the growth of bacterial cells, such as Gram-negative Escherichia coli , as confirmed in photodynamic, fluorescence microscopy, and scanning electron microscopy measurements. The results from this research highlight the unique potential of carbon nitride derivatives as potent antimicrobial agents.
Keyphrases
- visible light
- reduced graphene oxide
- electron microscopy
- escherichia coli
- gram negative
- quantum dots
- multidrug resistant
- gold nanoparticles
- staphylococcus aureus
- single molecule
- high resolution
- oxidative stress
- induced apoptosis
- energy transfer
- single cell
- stem cells
- cystic fibrosis
- cancer therapy
- signaling pathway
- magnetic resonance
- computed tomography
- drug delivery
- bone marrow
- mass spectrometry
- silver nanoparticles
- biofilm formation
- aqueous solution