Exploring a wider range of Mg-Ca-Zn metallic glass as biocompatible alloys using combinatorial sputtering

Exploring a wider range of Mg-Ca-Zn metallic glass as biocompatible alloys using combinatorial sputtering

In order to bypass the limitation of bulk metallic glasses fabrication, we synthesized thin film metallic glasses to study the corrosion characteristics of a wide atomic% composition range, Mg(35.9-63%)Ca(4.1-21%)Zn(17.9-58.3%), in simulated body fluid. We highlight a clear relationship between Zn c...

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Veröffentlicht in:Chemical communications (Cambridge, England) England), 2017-07, Vol.53 (59), p.8288-8291
Hauptverfasser: Li, Jinyang, Gittleson, Forrest S, Liu, Yanhui, Liu, Jingbei, Loye, Ayomiposi M, McMillon-Brown, Lyndsey, Kyriakides, Themis R, Schroers, Jan, Taylor, André D
Format: Artikel
Sprache:eng
Schlagworte:
Alloys - chemistry
Alloys - pharmacology
Biocompatible Materials - chemistry
Biocompatible Materials - pharmacology
Calcium - chemistry
Calcium - pharmacology
Cell Line, Tumor
Cell Proliferation - drug effects
Cell Survival - drug effects
Corrosion
Glass - chemistry
Humans
Magnesium - chemistry
Magnesium - pharmacology
MATERIALS SCIENCE
Microscopy, Fluorescence
Particle Size
Surface Properties
Water - chemistry
Zinc - chemistry
Zinc - pharmacology
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Zusammenfassung:In order to bypass the limitation of bulk metallic glasses fabrication, we synthesized thin film metallic glasses to study the corrosion characteristics of a wide atomic% composition range, Mg(35.9-63%)Ca(4.1-21%)Zn(17.9-58.3%), in simulated body fluid. We highlight a clear relationship between Zn content and corrosion current such that Zn-medium metallic glasses exhibit minimum corrosion. In addition, we found higher Zn content leads to a poor in vitro cell viability. These results showcase the benefit of evaluating a larger alloy compositional space to probe the limits of corrosion resistance and prescreen for biocompatible applications.
ISSN:1359-7345
1364-548X
DOI:10.1039/c7cc02733h