As implant substitutes are increasingly applied to the clinic,the infection caused by implants has become one of the most common complications,and the modification of the antibacterial function of the implant can redu...As implant substitutes are increasingly applied to the clinic,the infection caused by implants has become one of the most common complications,and the modification of the antibacterial function of the implant can reduce such complications.In this work,a well-defined bowl-shaped nanostructure coating with photocatalytic and photothermal synergistic antibacterial properties was prepared on Ti-19Zr-10Nb-1Fe(TZNF)alloy.The coating is obtained by spin-coating and sintering TiO_(2)precursors templated from self-assembled microspheres of polystyrenepoly(4-vinylpyridine)(PS-P4VP)amphiphilic block polymer on TZNF alloy.PS-P4VP provides the bowl-shaped TiO_(2)nanostructures doped with C,N elements,reducing the band-gap of TiO_(2),which can absorb near-infrared(NIR)light to release reactive oxygen species and produce photothermal conversion.The bowl structure is expected to enhance the utilization of light via the reflection in the confined space.The bowl-shaped surface has 100%antibacterial rates after 30 min of NIR light irradiation.In addition to antibacterial properties,the bowl-shaped surface has better hydrophilicity and protein adsorption capacity.The amount of protein adsorbed on TZNF with the bowl-shaped structures was six times that of TZNF.Hence,the bowl-shaped nanostructure can promote the proliferation and adhesion of osteoblasts,the cell proliferation rate was increased by 10–30%.展开更多
基金supported by the National Key Research and Development Program of China(No.2018YFC1106600)the National Natural Science Foundation of China(No.52173193).
文摘As implant substitutes are increasingly applied to the clinic,the infection caused by implants has become one of the most common complications,and the modification of the antibacterial function of the implant can reduce such complications.In this work,a well-defined bowl-shaped nanostructure coating with photocatalytic and photothermal synergistic antibacterial properties was prepared on Ti-19Zr-10Nb-1Fe(TZNF)alloy.The coating is obtained by spin-coating and sintering TiO_(2)precursors templated from self-assembled microspheres of polystyrenepoly(4-vinylpyridine)(PS-P4VP)amphiphilic block polymer on TZNF alloy.PS-P4VP provides the bowl-shaped TiO_(2)nanostructures doped with C,N elements,reducing the band-gap of TiO_(2),which can absorb near-infrared(NIR)light to release reactive oxygen species and produce photothermal conversion.The bowl structure is expected to enhance the utilization of light via the reflection in the confined space.The bowl-shaped surface has 100%antibacterial rates after 30 min of NIR light irradiation.In addition to antibacterial properties,the bowl-shaped surface has better hydrophilicity and protein adsorption capacity.The amount of protein adsorbed on TZNF with the bowl-shaped structures was six times that of TZNF.Hence,the bowl-shaped nanostructure can promote the proliferation and adhesion of osteoblasts,the cell proliferation rate was increased by 10–30%.