| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 8023237 | Surface and Coatings Technology | 2018 | 12 Pages |
Abstract
In this work, the MAO-Zn coatings were further modified by hydrothermal treatment in the deionized water and 5â¯mol/L NH3
- H2O solution. The surface structure and the release behavior of Zn element in the hydrothermal treated MAO-Zn coatings have been effectively optimized. In addition, the antibacterial ability of MAO-Zn coatings after hydrothermal treatment have been significantly improved.514(a) the SEM image of MAO-Zn coating; (b) the SEM image of MAO-Zn-HT-0 coating; (c) the SEM image of MAO-Zn-HT coating; (d) the Zn2+ release curves of MAO-Zn, MAO-Zn-HT-0 and MAO-Zn-HT-5 coatings; (e) the Zn2+ release rates from the MAO-Zn, MAO-Zn-HT-0 and MAO-Zn-HT-5 coatings; (f) the antibacterial rates of the MAO-Zn, MAO-Zn-HT-0 and MAO-Zn-HT-5 coatings; (g) The schematic illustration of antibacterial mechanism of the hydrothermal treated Zn-incorporated MAO coating.
- H2O solution. The surface structure and the release behavior of Zn element in the hydrothermal treated MAO-Zn coatings have been effectively optimized. In addition, the antibacterial ability of MAO-Zn coatings after hydrothermal treatment have been significantly improved.514(a) the SEM image of MAO-Zn coating; (b) the SEM image of MAO-Zn-HT-0 coating; (c) the SEM image of MAO-Zn-HT coating; (d) the Zn2+ release curves of MAO-Zn, MAO-Zn-HT-0 and MAO-Zn-HT-5 coatings; (e) the Zn2+ release rates from the MAO-Zn, MAO-Zn-HT-0 and MAO-Zn-HT-5 coatings; (f) the antibacterial rates of the MAO-Zn, MAO-Zn-HT-0 and MAO-Zn-HT-5 coatings; (g) The schematic illustration of antibacterial mechanism of the hydrothermal treated Zn-incorporated MAO coating.
Related Topics
Physical Sciences and Engineering
Materials Science
Nanotechnology
Authors
Qing Du, Daqing Wei, Shang Liu, Su Cheng, Narisu Hu, Yaming Wang, Baoqiang Li, Dechang Jia, Yu Zhou,