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Sodium functionalized graphene oxide coated titanium plates for improved corrosion resistance and cell viability

机译：钠功能化的氧化石墨烯涂层钛板可提高耐蚀性和电池寿命

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摘要

Surface functionalization is an important process that has been adopted to well explore the applications of nanomaterials. In this context, we demonstrate the sodium functionalized graphene oxide (NaGO) as an excellent candidate for increasing the life time of titanium (Ti) based ortho-implants. As-prepared aqueous dispersion of NaGO was used to assemble NaGO sheets on commercially pure Ti (CpTi) plates by heat controlled spin coating. The resulting wrinkled NaGO sheets play a dual role in implant material, i.e., passive layer against corrosion and biocompatible scaffold for cell viability. The preparation, physicochemical properties, and biocompatibility of NaGO coatings formed on CpTi were reported. The electrochemical polarization studies demonstrate the relative susceptibility of control GO and NaGO coatings to corrosion, which outline that the NaGO coating act as a geometric blocking layer and hence prevent the implant surface from contacting corrosive media. The immunofluorescence and cell proliferation studies performed using human dermal fibroblasts cells showed that NaGO coatings significantly (P＜ 0.05) enhanced the cellular viability for longer in vitro culture period (15 days) than control GO and pristine CpTi.

机译：表面功能化是一个重要的过程，已经被采用来很好地探索纳米材料的应用。在这种情况下，我们证明了钠功能化的氧化石墨烯（NaGO）是增加基于钛（Ti）的邻位植入物寿命的极佳候选者。所制备的NaGO水性分散体用于通过热控制旋涂在商业纯Ti（CpTi）板上组装NaGO片。所得的起皱的NaGO片在植入材料中起双重作用，即抗腐蚀的钝化层和用于细胞生存的生物相容性支架。报道了在CpTi上形成的NaGO涂层的制备，理化性质和生物相容性。电化学极化研究证明了控制GO和NaGO涂层对腐蚀的相对敏感性，这概述了NaGO涂层可作为几何阻挡层，从而防止植入物表面接触腐蚀介质。使用人类皮肤成纤维细胞进行的免疫荧光和细胞增殖研究表明，与对照GO和原始CpTi相比，NaGO涂层在更长的体外培养时间（15天）内显着提高了细胞活力（P ＜0.05）。

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来源
《Applied Surface Science》 |2014年第28期|124-131|共8页
作者
Mohana Marimuthu; Murugan Veerapandian; Subramaniyan Ramasundaram; Seok Won Hong; P.Sudhagar; Srinivasan Nagarajan; V. Raman; Eisuke Ito; Sanghyo Kim; Kyusik Yun; Yong Soo Kang;
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作者单位

Department of Bionanotechnology, Gachon University, Seongnam Si, Gyeonggi-Do 461 701. South Korea,Department of Engineering Physics, Ecole Polytechnique de Montreal, Montreal, Quebec H3T 1J4, Canada;

Department of Bionanotechnology, Gachon University, Seongnam Si, Gyeonggi-Do 461 701. South Korea,Department of Chemistry, Universite de Montreal, C.P. 6128, Succursale Centre-ville, Montreal, Quebec H3C 3J7, Canada;

Center for Water Resource Cycle Research, Korea Institute of Science and Technology, Hwarangno 14 gil, Seongbuk-gu, Seoul 136-791, South Korea;

Center for Water Resource Cycle Research, Korea Institute of Science and Technology, Hwarangno 14 gil, Seongbuk-gu, Seoul 136-791, South Korea;

Energy Materials Lab, WCU Program, Department of Energy Engineering, Hanyang University, Seoul 133 791, South Korea;

Energy Materials Lab, WCU Program, Department of Energy Engineering, Hanyang University, Seoul 133 791, South Korea;

Department of Materials Science, Japan Advanced Institute of Science and Technology, 1-1, Asahidai, Nomi-shi, Ishikawa-ken 923-1292, Japan;

Flucto-Order Functions Research Team, RIKEN-ASI, Saitama 351-0198, Japan;

Department of Bionanotechnology, Gachon University, Seongnam Si, Gyeonggi-Do 461 701. South Korea;

Department of Bionanotechnology, Gachon University, Seongnam Si, Gyeonggi-Do 461 701. South Korea;

Energy Materials Lab, WCU Program, Department of Energy Engineering, Hanyang University, Seoul 133 791, South Korea;

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原文格式 PDF
正文语种 eng
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关键词
Sodium; Graphene oxide; Titanium; Orthopedic implants; Corrosion; Biocompatibility;

机译：钠;氧化石墨烯;钛;骨科植入物;腐蚀;生物相容性;

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