Rong-Gang Hu
Xiamen University
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Publication
Featured researches published by Rong-Gang Hu.
Colloids and Surfaces B: Biointerfaces | 2015
Qiaoling Huang; Yun Yang; Rong-Gang Hu; Changjian Lin; Lan Sun; Erwin A. Vogler
Superhydrophilic and superhydrophobic TiO2 nanotube (TNT) arrays were fabricated on 316L stainless steel (SS) to improve corrosion resistance and hemocompatibility of SS. Vertically-aligned superhydrophilic amorphous TNTs were fabricated on SS by electrochemical anodization of Ti films deposited on SS. Calcination was carried out to induce anatase phase (superhydrophilic), and fluorosilanization was used to convert superhydrophilicity to superhydrophobicity. The morphology, structure and surface wettability of the samples were characterized by scanning electron microscopy (SEM), X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS), and contact angle goniometry. The effects of surface wettability on corrosion resistance and platelet adhesion were investigated. The results showed that crystalline phase (anatase vs. amorphous) and wettability strongly affected corrosion resistance and platelet adhesion. The superhydrophilic amorphous TNTs failed to protect SS from corrosion whereas superhydrophobic amorphous TNTs slightly improved corrosion resistance of SS. Both superhydrophilic and superhydrophobic anatase TNTs significantly improved corrosion resistance of SS. The superhydrophilic amorphous TNTs minimized platelet adhesion and activation whereas superhydrophilic anatase TNTs activated the formation of fibrin network. On the contrary, both superhydrophobic TNTs (superhydrophobic amorphous TNTs and superhydrophobic anatase TNTs) reduced platelet adhesion significantly and improved corrosion resistance regardless of crystalline phase. Superhydrophobic anatase TNTs coating on SS surface offers the opportunity for the application of SS as a promising permanent biomaterial in blood contacting biomedical devices, where both reducing platelets adhesion/activation and improving corrosion resistance can be effectively combined.
Acta Physico-chimica Sinica | 2009
Sizhen Li; 李思振; Lan Sun; 孙岚; Rong-Gang Hu; 胡融刚; Zhi-Lin Wang; 王志林; Gregory Zhang; 章小鸽; Changjian Lin; 林昌健
National Natural Science Foundation of China [50731004]; National Sci-Tech Supporting Program of China [2007BAB27B04-N43CTT]
Electrochimica Acta | 2010
Zequan Lin; Yuekun Lai; Rong-Gang Hu; Jing Li; Rong-Gui Du; Changjian Lin
Electrochimica Acta | 2007
Bing Zhao; Jian-Hua Li; Rong-Gang Hu; Rong-Gui Du; Changjian Lin
Journal of Electroanalytical Chemistry | 2013
Chenqing Ye; Rong-Gang Hu; Shi-Gang Dong; Xiaojuan Zhang; Rui-Qing Hou; Rong-Gui Du; Changjian Lin; Jinshan Pan
Analytical Chemistry | 2006
Rong-Gui Du; Rong-Gang Hu; and Ruo-Shuang Huang; Changjian Lin
Electrochimica Acta | 2010
Bin Lin; Rong-Gang Hu; Chenqing Ye; Yan Li; Changjian Lin
Electrochimica Acta | 2011
Shi-Gang Dong; Changjian Lin; Rong-Gang Hu; Lanqiang Li; Rong-Gui Du
Construction and Building Materials | 2012
Shi-Gang Dong; Bing Zhao; Changjian Lin; Rong-Gui Du; Rong-Gang Hu; Gregory Zhang
Electrochimica Acta | 2009
Yan Li; Rong-Gang Hu; Jingrun Wang; Yongxia Huang; Changjian Lin
