A scalable approach to topographically mediated antimicrobial surfaces based on diamond, Journal of Nanobiotechnology
Impacts of a Nano-Laponite Ceramic on Surface Performance, Apatite Mineralization, Cell Response, and Osseointegration of a Polyimide-Based Biocomposite. - Document - Gale OneFile: Health and Medicine
Preliminary comparative study of laser-prepared DLC and Cr-doped DLC for bacteria adhesion
The effects of interfacial potential on antimicrobial propensity of ZnO nanoparticle
Strategies applied to modify structured and smooth surfaces: A step closer to reduce bacterial adhesion and biofilm formation - ScienceDirect
CVD Diamond and Nanodiamond: Versatile Materials for Countering a Wide Range of CBRN Threats
Impacts of a Nano-Laponite Ceramic on Surface Performance, Apatite Mineralization, Cell Response, and Osseointegration of a Polyimide-Based Biocomposite. - Document - Gale OneFile: Health and Medicine
Materials, Free Full-Text
Preliminary comparative study of laser-prepared DLC and Cr-doped DLC for bacteria adhesion
Antibiotics, Free Full-Text
Impacts of a Nano-Laponite Ceramic on Surface Performance, Apatite Mineralization, Cell Response, and Osseointegration of a Polyimide-Based Biocomposite. - Document - Gale OneFile: Health and Medicine
Preliminary comparative study of laser-prepared DLC and Cr-doped DLC for bacteria adhesion