Abstract
To control the degradation of magnesium alloy and enhance its osteoinduction activity and antibacterial properties, we proposed the addition of Zn and Sr ions in the process of surface modification of the magnesium alloy (ZK60) by a one-pot hydrothermal process. We found that, after surface modification, the surface of the materials formed a cluster crystal structure coating layer, and the successful incorporation of Zn and Sr ions in the surface coating did not affect the morphology of the microstructure. The corrosion resistance of the surface of the modified magnesium alloy was significantly improved, and cells grew well on the modified material surfaces. Zn and Sr ions released from the coating layer promote cell osteogenic differentiation, and Zn ions also provide a good antibacterial effect. Thus, the combined use of Zn and Sr offers antibacterial effects and promotes osteogenic differentiation of cells. To summarize, we have developed a controllable and degradable magnesium alloy material that offers both osteoinduction and antibacterial effects. The development of this material provides ideas about the preparation of a novel biodegradable magnesium alloy with better bioactivity for clinical application.