In the View of Electrons Transfer and Energy Conversion: The Antimicrobial Activity and Cytotoxicity of Metal‐Based Nanomaterials and Their Applications

Abstract: The global pandemic and excessive use of antibiotics have raised concerns about environmental health, and efforts are being made to develop alternative bactericidal agents for disinfection. Metal‐based nanomaterials and their derivatives have emerged as promising candidates for antibacterial agents due to their broad‐spectrum antibacterial activity, environmental friendliness, and excellent biocompatibility. However, the reported antibacterial mechanisms of these materials are complex and lack a comprehensive … Show more

“…25–27 In this way, the efficiency of ROS production provoked by the newly generated hot electrons is enhanced for effective antibacterial killers. 28–31 Thus, Ag-based NPs have been regarded as a key player in the category of antibacterial agents.…”

Disentangling the “tip-effects” enhanced antibacterial mechanism of Ag nanoparticles

“…25–27 In this way, the efficiency of ROS production provoked by the newly generated hot electrons is enhanced for effective antibacterial killers. 28–31 Thus, Ag-based NPs have been regarded as a key player in the category of antibacterial agents.…”

Disentangling the “tip-effects” enhanced antibacterial mechanism of Ag nanoparticles

Construction of NiCo2O4/NiCoO2 co-embedded porous bio-carbon with rich heterogeneous interfaces for excellent bacteriostatic microwave radiation protection

Fe, Cu bimetallic precursor-driven quaternary active sites boost oxygen reduction / evolution reaction bifunctional catalysts