Effects of post-deposition heat treatment on nanostructured TiO₂-C composite structure and antimicrobial properties

Engineering

• Active Surface 100%
• Amorphous Carbon 50%
• Antimicrobial Performance 50%
• Band Gap 50%
• Carbon Composite 50%
• Chemical Vapor Deposition 50%
• Composite Coating 50%
• Composite Structure 100%
• Dopants 50%
• Free Carbon 50%
• Glass Substrate 50%
• Great Extent 50%
• Health Care 50%
• Heat Treatment 100%
• Heterojunctions 50%
• Mixed Phase 50%
• Nanoparticles 50%
• Stainless Steel 50%
• Surface Area 100%
• Vapor Deposition 50%
• Water Contact Angle 50%

INIS

• adhesion 14%
• air 14%
• bacteria 14%
• carbon 100%
• chemical vapor deposition 14%
• coatings 57%
• contamination 14%
• deposition 100%
• doped materials 14%
• glass 14%
• growth 14%
• heat treatments 100%
• heterojunctions 14%
• increasing 14%
• morphology 14%
• nanoparticles 14%
• nanostructures 100%
• oxygen 14%
• pathogens 14%
• performance 28%
• photocatalysis 28%
• rutile 28%
• stainless steels 14%
• substrates 14%
• surface area 28%
• surfaces 28%
• thickness 28%
• titanium oxides 100%
• transport 14%
• viability 14%
• water 14%

Material Science

• Amorphous Carbon 20%
• Antibacterial Performance 20%
• Antiinfective Agent 100%
• Chemical Vapor Deposition 20%
• Composite Coating 20%
• Composite Material 100%
• Contact Angle 20%
• Doping (Additives) 20%
• Heat Treatment 100%
• Heterojunction 20%
• Nanoparticle 20%
• Stainless Steel 20%
• Surface (Surface Science) 20%
• Titanium Dioxide 100%