摘要
Promoting metallic magnesium(Mg)-based implants to treat bone diseases in clinics,such as osteosarcoma and bacterial infection,remains a challenging topic.Herein,an iron hydroxide-based composite coating with a twostage nanosheet-like structure was fabricated on Mg alloy,and this was followed by a thermal reduction treatment to break some of the surface Fe–OH bonds.The coating demonstrated three positive changes in properties due to the defects.First,the removal of–OH made the coating superhydrophobic,and it had self-cleaning and antifouling properties.This is beneficial for keeping the implants clean and for anti-corrosion before implantation into the human body.Furthermore,the superhydrophobicity could be removed by immersing the implant in a 75%ethanol solution,to further facilitate biological action during service.Second,the color of the coating changed from yellow to brown-black,leading to an increase in the light absorption,which resulted in an excellent photothermal effect.Third,the defects increased the Fe2+content in the coating and highly improved peroxidase activity.Thus,the defect coating exhibited synergistic photothermal/chemodynamic therapeutic effects for bacteria and tumors.Moreover,the coating substantially enhanced the anti-corrosion and biocompatibility of the Mg alloys.Therefore,this study offers a novel multi-functional Mg-based implant for osteosarcoma therapy.
基金
the National Key R&D Program of China(2021YFC2400500)
Shanghai Committee of Science and Technology,China(20S31901200)
GDPH Supporting Fund for Talent Program(KY0120220137 and KY012021462)
Postdoctoral Science Foundation of China(2022M723288).
