机译:超疏水弓丝:BioinSpired超疏水Ni-Ti弓丝,具有耐细菌粘附和镍离子释放(ADV。母体。界面7/2019)
Department of OrthodonticsPeking University School and Hospital of StomatologyBeijing 100081 P. R. China;
CAS Key Laboratory of Bio‐inspired Materials and Interfacial ScienceChinese Academy of SciencesBeijing 100190 P. R. China;
Department of OrthodonticsPeking University School and Hospital of StomatologyBeijing 100081 P. R. China;
Department of OrthodonticsPeking University School and Hospital of StomatologyBeijing 100081 P. R. China;
CAS Key Laboratory of Bio‐inspired Materials and Interfacial ScienceChinese Academy of SciencesBeijing 100190 P. R. China;
Department of OrthodonticsPeking University School and Hospital of StomatologyBeijing 100081 P. R. China;
CAS Key Laboratory of Bio‐inspired Materials and Interfacial ScienceChinese Academy of SciencesBeijing 100190 P. R. China;
antibacteria adhesion; anti‐Ni ion release; bioinspired; Ni–Ti alloy archwires; superhydrophobic surface;
机译:超疏水弓丝:BioinSpired超疏水Ni-Ti弓丝,具有耐细菌粘附和镍离子释放(ADV。母体。界面7/2019)
机译:各向异性超疏水性:Femtosecond激光器(ADV。Mater.6 / 2018)
机译:超疏水/超级药物:鲁棒,易清清洁超疏水/超级磷酸铜网,用于在恶劣条件下的油/水分离(ADV。母体。界面11/2019)
机译:不同弯曲技术对超弹性正畸抗拱丝耐腐蚀性和镍释放的影响
机译:具有高和低粘合性,透光率和纳米级机械耐磨性的超疏水仿生表面。
机译:正畸镍钛弓丝在口腔介质暴露前后的生物膜积聚和钝化力评估:前瞻性临床研究
机译:超疏水弓丝:Bioinspired超疏水性Ni-Ti弓丝,具有细菌粘附和镍离子释放的抗性(ADV。母体。界面界面7/2019)