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Mineralization and osteoblast behavior of multilayered films on TiO_2 nanotube surfaces assembled by the layer-by-layer technique 被引量:1

Mineralization and osteoblast behavior of multilayered films on TiO_2 nanotube surfaces assembled by the layer-by-layer technique
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摘要 In this paper,the multilayer films of poly-L-lysine(PLL) and DNA were created on TiO2 nanotube surfaces using the layer-by-layer(LBL) self-assembly technique.Chemical compositions of the assembled multilayered films were investigated by X-ray photoelectron spectroscopy.Biological properties of the multilayered films were evaluated by the biomimetic mineralization and osteoblast cell culture experiments.The results indicated that PLL and DNA were successfully assembled onto TiO2 nanotube surfaces by electrostatic attraction.Moreover,the samples of assembled PLL or/and DNA had better bioactivity in inducing HA formation and promoting osteoblast cells adhesion,proliferation and early differentiation. In this paper,the multilayer films of poly-L-lysine(PLL) and DNA were created on TiO2 nanotube surfaces using the layer-by-layer(LBL) self-assembly technique.Chemical compositions of the assembled multilayered films were investigated by X-ray photoelectron spectroscopy.Biological properties of the multilayered films were evaluated by the biomimetic mineralization and osteoblast cell culture experiments.The results indicated that PLL and DNA were successfully assembled onto TiO2 nanotube surfaces by electrostatic attraction.Moreover,the samples of assembled PLL or/and DNA had better bioactivity in inducing HA formation and promoting osteoblast cells adhesion,proliferation and early differentiation.
出处 《Chinese Chemical Letters》 SCIE CAS CSCD 2016年第7期1091-1096,共6页 中国化学快报(英文版)
基金 supported by the National Natural Science Foundation of China (No. 31570955) Applied Basic Research Programs of Sichuan Province, China (No. 2015JY0036)
关键词 TiO2 nanotube POLY-L-LYSINE DNA Layer-by-layer Biological property TiO2 nanotube Poly-L-lysine DNA Layer-by-layer Biological property
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