Single-walled carbon nanotube coated antibacterial paper: Preparation and mechanistic study

Keyphrases

• Multi-walled Carbon Nanotubes (MWCNTs) 100%
• Gram-positive Bacteria 100%
• Antibacterial Paper 100%
• Mechanistic Studies 100%
• Antibacterial Activity 100%
• Antibacterial Mechanism 100%
• Carbon Nanotubes 50%
• X-ray Photoelectron Spectroscopy 50%
• Gram-negative Bacteria 50%
• Imaging Studies 50%
• Bacterial Cells 50%
• Staphylococcus Aureus 50%
• Gram-positive 50%
• Gram-negative 50%
• Bacterial Species 50%
• Interaction Mechanism 50%
• Antibacterial Coating 50%
• Piercing 50%
• Scanning Transmission Electron Microscopy 50%
• Surface Functional Groups 50%
• Spectroscopy Imaging 50%
• Coated Paper 50%
• Novel Antimicrobials 50%
• Outer Membrane 50%
• High-resolution Electron Energy Loss Spectroscopy (HREELS) 50%
• Cell Membrane Damage 50%
• Efflux 50%
• New Antibacterials 50%
• Drug-resistant Bacteria 50%
• Interactions with Surfaces 50%
• Functionalized multi-walled Carbon Nanotubes 50%
• Molecular-scale Interactions 50%
• Escherichia Coli Model 50%
• Promising Strategies 50%
• Antibacterial Ability 50%
• Direct Physical Contact 50%

Engineering

• Positive Bacteria 100%
• Single-Walled Carbon Nanotube 100%
• Transmissions 50%
• Energy Dissipation 50%
• Ray Photoelectron Spectroscopy 50%
• Carbon Nanotube 50%
• Negative Bacteria 50%
• Electron Energy 50%
• Resistant Bacteria 50%
• Functional Group 50%
• Molecular Scale 50%

Material Science

• Carbon Nanotube 100%
• X-Ray Photoelectron Spectroscopy 33%
• Electron Energy Loss Spectrometry 33%
• Scanning Transmission Electron Microscopy 33%
• Functional Surface 33%
• Cell Membrane 33%