Effect of hydrothermally synthesized titanium nanotubes on the behaviour of polypropylene for antimicrobial applications

Engineering & Materials Science

• Nanotubes 100%
• Polypropylenes 80%
• Titanium 76%
• Nanoparticles 38%
• TiO2 nanoparticles 28%
• Escherichia coli 25%
• Polymer matrix 24%
• Crystallinity 23%
• Composite materials 22%
• Structural properties 21%
• Nanocomposites 21%
• Nucleation 20%
• Thermodynamic stability 20%
• Transmission electron microscopy 20%
• Fillers 18%
• Radiation 15%
• Polymers 14%
• Decomposition 14%
• Mechanical properties 12%
• Temperature 7%

Chemical Compounds

• Poly(propylene) 66%
• Nanotube 63%
• Antimicrobial Agent 55%
• Biocidal 51%
• Nanoparticle 29%
• Application 24%
• Decomposition Temperature 19%
• Composite Material 19%
• Secondary Structure 17%
• Filler 16%
• Nucleation 16%
• Hydrothermal Method 15%
• Crystallinity 14%
• Thermal Stability 13%
• Transmission Electron Microscopy 12%
• Nanocomposite 12%
• Reduction 8%