Large-scale hybrid silver nanowall-reduced graphene oxide biofilm: A novel morphology by facile electrochemical deposition
Document Type
Article
Publication Date
1-1-2018
Abstract
Increased attention has been focused on development of large-surface-area nanoengineered materials to enhance bone implants performance. Appropriate incorporations of functionalized carbon-based biofilms on the surface of artificial bone tissues can provide improved mechanobiological features. Besides, well-adhered potential coating interfaces corresponding wide spectrum antibacterial targets. Here, a novel morphology of hybrid silver (Ag) nanowall-green reduced graphene oxide (rGO) via facile methodology modified as-sputtered Ag grains to support Ti6Al7Nb implant (Ti67IMP) alloy. Layer-by-layer inorganic-organic topography obtained by physical vapor deposition magnetron sputtering (PVDMS) and subsequent one-step electrochemical deposition (ED) protocols. Microstructure, mechanical and wettability properties were characterized and cytocompatibility of designed composite-Ti67IMP system with human MG-63 osteosarcoma confirmed.
Keywords
Multilayer biofilm, Hybrid silver nanowall-reduced graphene oxide, Human cell culture, Electrochemical deposition, PVD magnetron sputtering, Ti6Al7Nb implant
Divisions
fac_eng,fac_med,CHEMISTRY
Funders
Postgraduate research grant (PPP) PG240-2015A
Publication Title
Surface and Coatings Technology
Volume
347
Publisher
Elsevier