Yongsheng Zhou scite author profile

Mg‐Ca alloys have emerged as a promising research direction for biomedical implants in the orthopedic field. However, their clinical use is deterred by their fast corrosion rate. In this work, a pH stimuli‐responsive silk‐halloysite (HNT)/phytic acid (PA) self‐healing coating (Silk‐HNT/PA) is constructed to slow down the corrosion rate of Mg‐1Ca alloy and its cell viability and osteogenic differentiation ability are enhanced. The Silk‐HNT/PA coating exhibits appealing active corrosion protection, by eliciting pH‐triggerable self‐healing effects, while simultaneously affording superior biocompatibility and osteogenic differentiation ability. Moreover, in vivo studies by histological analysis also demonstrate better osseointegration for the Silk‐HNT/PA coated Mg‐1Ca alloy. In summary, the Silk‐HNT/PA coating in the present study has great potential in enhancing the biomedical utility of Mg alloys.

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Yongsheng Zhou

In vitro and in vivo investigation on biodegradable Mg-Li-Ca alloys for bone implant application

Evolutions of Micro-clusters of Biodegradable Mg3Ca7 Potential Medical Implant Alloy

pH Stimuli‐Responsive, Rapidly Self‐healable Coatings Enhanced the Corrosion Resistance and Osteogenic Differentiation of Mg‐1Ca Osteoimplant

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