机译:可生物降解的镁植入物上的官能化TiO 2 / Mg2TiO4纳米层可实现优异的骨植入整合和细菌消毒
Univ Hong Kong Dept Orthopaed &
Traumatol Hong Kong Peoples R China;
Chinese Acad Sci Shenzhen Inst Adv Technol Ctr Human Tissues &
Organs Degenerat Shenzhen 518055;
City Univ Hong Kong Dept Phys Dept Mat Sci &
Engn Kowloon Tat Chee Ave Hong Kong Peoples R;
Univ Sci &
Technol Sch Mat Sci &
Engn Beijing Peoples R China;
Chinese Acad Sci Shenzhen Inst Adv Technol Ctr Human Tissues &
Organs Degenerat Shenzhen 518055;
Peking Univ State Key Lab Turbulence &
Complex Syst Coll Engn Beijing 100871 Peoples R China;
Tianjin Univ Minist Educ China Key Lab Adv Ceram &
Machining Technol Sch Mat Sci &
Engn Tianjin;
Chinese Acad Sci Shanghai Inst Ceram State Key Lab High Performance Ceram &
Superfine Shanghai;
Univ Hong Kong Dept Orthopaed &
Traumatol Hong Kong Peoples R China;
Univ Hong Kong Dept Orthopaed &
Traumatol Hong Kong Peoples R China;
Univ Hong Kong Dept Orthopaed &
Traumatol Hong Kong Peoples R China;
Titanium oxide nano-layer; Biodegradable mg; Corrosion resistance; Bone regeneration; Bacteria disinfection;
机译:可生物降解的镁植入物上的官能化TiO 2 / Mg2TiO4纳米层可实现优异的骨植入整合和细菌消毒
机译:骨-植入物界面强度和骨整合:可生物降解的镁合金与标准钛合金对照。
机译:基于表面工程的多功能TiO 2的纳米层同时提高镁合金的耐腐蚀性,骨导电性和抗微生物性能
机译:骨-植入物界面-功能加载的,纳米结构的人类牙齿植入物的纳米骨整合
机译:Cell-Sheet技术:一种增强骨植入物整合的新方法。
机译:镁牺牲策略可实现PMMA骨水泥的部分生物降解性和骨整合潜力
机译:“镁牺牲”策略使PMMA骨水泥部分生物降解性和骨整合潜力能够实现