个人简介
2003年7月毕业于哈尔滨工程大学材料科学与化学工程学院材料物理专业,2006年3月和2011年1月分别在哈尔滨工程大学获得材料学硕士和博士学位,博士期间在西澳大利亚大学机械与化学工程学院进行了为期一年的学术访问,主要从事纳米生物医用无机材料的开发与生物医用研究。
研究领域
1) 纳米生物医用金属及金属氧化物材料的开发与研究;
2) 新型纳米晶金属及合金材料的生物医用研究;
近期论文
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[1] E.G. Goh, X. Xu and P.G. McCormick. Effect of particle size on the UV absorbance of zinc oxide nanoparticles, Scripta Materialia, 2014, 78-79:49-52 (SCI, IF 2.82)
[2] Ai.D. Li, Z.Z. Sun, M. Zhou, X.X. Xu, J.Y. Ma, W. Zheng, H.M. Zhou, L.Li, and Y.F. Zheng, Electrospun Chitosan-graft-PLGA nanofibres with significantly enhanced hydrophilicity and improved mechanical property. Colloids and Surfaces B: Biointerfaces. 2013, 102: 674-681(SCI, IF 3.55)
[3] X.X. Xu, M.H. Ding, J.X. Zhang, W. Zheng, L. Li, Y.F. Zheng. A novle copper/ polydime -thiylsiloxane nanocomposite for copper-containing intrauterine contraceptive devices, Journal of Biomedical Materials Research B, 2013, 101B:1428-1436 (SCI, IF 2.15)
[4] X.X. Xu, H. Yang, Y.N. Liu. Self-assembled structures of CuO nanocrystals synthesized from Cu(CH3COO)2-NaOH aqueous systems, CrystEngComm, 2012, 14:5289-5298. (SCI, IF 4.0)
[5] X.X. Xu, F.L. Nie, J.X. Zhang, W. Zheng, L Li, Y.F. Zheng, C. Hu, and G. Yang, Effective inhibition of the early copper ion burst release with ultra-fine grained copper and single crystal copper for intrauterine device application. Acta Biomaterialia, 2012, 8: 886-896. (SCI, IF 4.8)
[6] X.X. Xu, H. Yang, Y.N. Liu, Y.F. Zheng, L. Li, Y. Ji, and X.D. Han, Formation mechanism of novel two-dimensional single crystalline dendritic copper plates in an aqueous environment. Acta Materialia, 2011, 59: 7177-7188. (SCI, IF 3.7)
[7] Z.X. Meng, X.X. Xu, W. Zheng, H.M. Zhou, L. Li, Y.F. Zheng, X. Lou, Preparation and characterization of electrospun PLGA/gelatin nanofibers as a potential drug delivery system. Colloids and Surfaces B: Biointerfaces. 2011, 84: 97-102 (SCI, IF 3.55)
[8] X.X. Xu, J.X. Zhang, F. Guo, W. Zheng, H.M. Zhou, B.L. Wang, Y.F. Zheng, Y.B. Wang, Y. Cheng, B.Z. Jang. A novel amperometric hydrogen peroxide biosensor with enhanced sensitivity based on immobilized Hb in pluronic P123-Nanographene platelets composite. Colloids and Surfaces B: Biointerfaces. 2011, 84: 427-432 (SCI, IF 3.55)
[9] F. Guo, X.X. Xu, Z.Z. Sun, J.X. Zhang, Z.X. Meng, W. Zheng, H.M. Zhou, B.L. Wang, Y.F. Zheng, A novel amperometric hydrogen peroxide biosensor based on electrospinning nanosilk of Hb-collagen composite. Colloids and Surfaces B: Biointerfaces. 2011, 86: 140-145 (SCI, IF 3.554)
[10] X.X. Xu, F.L. Nie, J.X. Zhang, W. Zheng, Y.F. Zheng, C. Hu, and G. Yang, Corrosion and ion release behavior of ultra-fine grained bulk pure copper fabricated by ECAP in Hanks solution as potential biomaterial for contraception, Materials Letters. 2010, 64: 524-527. (SCI, IF 1.9)
[11] H.Y. Zhao, X.X. Xu, J.X. Zhang, W. Zheng, Y.F. Zheng. Carbon nanotube- hydroxyapatite -hemoglobin nanocomposites with high bioelectrocatalytic activity. Bioelectrochemistry, 2010, 78: 124-129. (SCI, IF 3.52)
[12] M.I. Sabir, X.X. Xu, L. Li. A review on biodegradable polymeric materials for bone tissue engineering applications. Journal of Materials Science, 2009, 44: 5713-5724. (SCI, IF 1.9)