陳民芳,1962年11月生,現任天津市熱處理學會理事。
基本介紹
- 中文名:陳民芳
- 出生日期:1962年11月
學術兼職,講授課程,科研項目及成果,項目,論文,論著,獲獎, 發明專利,
學術兼職
天津市熱處理學會理事
講授課程
材料科學基礎A(本科)、生物材料導論(本科)、材料科學前沿講座(研究生)
科研項目及成果
項目
(a)主持國家自然科學基金項目: PLLA/n-Mg-w複合材料製備及其鎂腐蝕調控的體內外降解機理研究(資助號:51371126)
(c)天津市濱海新區科技計畫自主創新項目:膠原基複合鎂合金可降解骨植入材料(技術主持)(資助號:2012-BK120024)
(d)天津市科技支撐項目:新型生物可降解鎂基複合材料板棒材產品的開發(技術主持)
(e)主持完成國家自然科學基金項目:n-βTCp/Mg-Zn複合材料的腐蝕降解機理與生物相容性研究,2011.1.-2013.12.(資助號:51071108);
(f). 主持完成國家自然科學基金項目,液晶羥基磷灰石/聚醯胺66複合生物活性材料研究,2006.1.-2008.12.(資助號:50572068 );
(g). 主持完成天津市自然科學基金重點項目:新型可降解羥基磷灰石/鎂合金複合骨折固定材料研究,(主持)2009.4.-2012.3(資助號:09JCZDJC18500);
(h) 高導無氧銅管表面處理及其控釋特性研究, 天津和傑醫療器械有限公司委託, (主持),2009-2010
(i) 天津市科技支撐項目國際合作項目,可降解血管支架用納米HA/Mg-Ca-Sn複合材料研
究,2007.10.-2009.9(主持)(資助號:07CGHHZ01300);
(l) NiTi形狀記憶合金表面仿生礦化機理研究,天津教委基金,2004-2007(20041018)(主持);
論文
[1] Wei Li ,Minfang Chen , Jun Wei, Wenjiang Li,Chen You, Preparation of Conductive Cu Patterns by Directly Writing Using Nano-Cu Ink, Materials Chemistry and Physics
2014, (In Press) (通訊作者)
[2] Wei Li ,Minfang Chen ,Triboelectric nanogenerator using nano-Ag ink as electrode material, Nano Energy journal, 2014, (In Press) (通訊作者)
[3] Wei Li ,Minfang Chen , Jun Wei, Wenjiang Li,Chen You, Synthesis and characterization of air-stable Cu nanoparticles for conductive pattern drawing directly on paper substrates. J Nanopart Res, 2013. 15(12): 1-10 (SCI259JF), (通訊作者)
[4] Sun Jin’e, Chen Minfang*, Cao Genghua, Bi Yanze. The effect of nano-hydroxyapatite on the microstructure and properties of Mg-3Zn-0.5Zr alloy. Journal of Composite Materials. Apr 8, 2013OnlineFirst Version of Record :1-10. (SCI 檢索)(通訊作者)
[5] Sun Jin-E, Wang Jing-bo, Jiang Hong-feng, Chen Min-Fang*. In vivo comparative property study on the bioactivity coated Mg-3Zn-0.8Zr alloy, Materials Science and Engineering C 33( 2013): 3063-3272. (SCI172AT) (通訊作者)
[6] Y. Z. Zhang, M. F. Chen, Y. C. Ma, X. Wei, Effects of the anodization on the Ca-P coating deposition of biodegradable Mg-Zn-Zr alloy,Surface and Coatings Technology 228 (2013) :S111-S115. (SCI 檢索) (通訊作者)
[7] 曹耿華,畢衍澤,陳民芳,劉德寶,由臣,骨折內固定用新型Mg-Zn-Ca/HA複合材料的成分、組織結構與性能,稀有金屬材料與工程. 42(8). 2013: 1632-1637. (SCI 檢索) (通訊作者)
[8] Debao Liu, Yubo Zuo, Wanyu Meng, Mingfang Chen, Z. Fan,Fabrication of biodegradable nano-sized β-TCP / Mg composite by a novel melt shearingtechnology,Material Science and Engineering C, 32: 1253-1258, 2012. (SCI964SF)
[9] 馬玉春; 陳民芳; 由臣等,Mg-Zn-Zr表面磷酸鈣塗層的製備及其耐蝕性能研究,稀有金屬材料與工程2011. Vol 40(增刊: 2) : 592-595, (SCI846UD)
[10]HE Sheng-ying, SUN Yue, CHEN Min-fang, LIU De-bao, YE Xin-yu, Microstructure and properties of biodegradableβ-TCP reinforced Mg-Zn-Zr composites, Trans nonferrous Mat. Soc. China 20(2011):814-819 (SCI 通訊作者)
[11] 楊萌,陳民芳等,納米羥基磷灰石對Mg-Zn-Zr合金體外生物性能的影響,複合材料學報,2011(28)1:82-87 (EI 通訊作者)
Xinyu Ye, Minfang Chen, etal. In vitro Corrosion Resistance and Cytocompatibility of Nano-Hydroxyapatite Reinforced Mg-Zn-Zr Composites. Journal of Materials Science: Materials in Medicine, 2010. 21(4): 1321-1328 (SCI 578EF 通訊作者)
[12] Xinyu Ye, Minfang Chen, etal. The Influence of HF Treatment on the Corrosion Resistance and in vitro biocompatibility of Mg-Zn-Zr alloy [J]. Frontiers of Materials Science in China. (2010,通訊作者)
[13] 王曉偉,陳民芳等,添加納米羥基磷灰石對可降解血管內支架用Mg-Zn-Zr 合金性能的影響,稀有金屬材料與工程.2010. 39(12), (SCI 710WD 通訊作者)
[14]Yang Meng, Chen Minfang, Wang Hao, et al. In vitro and in vivo evaluation of nano-hydroxyapatite/polyamide66 as bone repair material. Journal of Clinical Rehabilitative Tissue Engineering Research. (2010. 14(61) 通訊作者)
[15] 葉新羽,陳民芳 等. 添加Zr對生物Mg-Zn合金力學性能及體外降解行為的影響. 金屬熱處理. 2010, 35(7): 9-12
[16] Junjun Tan, Minfang Chen, Jiaoyang Xia, Water-dispersible hydroxyapatite nanorods synthesized by a facile method, Applied Surface Science,2009,255:8774-8779.(SCI477GF)
[17] M. F. Chen, C. You, S. J. Li, R. Yang, and Z. X. Guo,The Formation of Nanocrystallite Bone-like Apatite on Chemically Treated Ti-24Nd-4Zr-7.9Sn Alloy,Nanoscience and Nanotechnology,2009. 9(2): 1214-1217. (SCI 411MI)
[18] 沈榮臻,陳民芳,劉德寶,譚軍軍,基於納米羥基磷灰石溶膠的nHA/PA66複合粉體製備與表征,無機化學學報,2009 . 25( 2): 236-242. (SCI 416OT) (通訊作者)
[19] 陳民芳,王曉偉,崔忠波,由臣,李述軍,楊銳,氧化溫度對β-Ti-24Nb-4Zr-7.9Sn合金表面生物活性的影響,金屬熱處理, 2009, 34(1):80-84.
[20] Minfang Chen, Junjun Tan, Gelatin Coated Rod-like Nano-Hydroxyapatite and Colloidal Stability, Applied Surface Science,2008. 254(9):2730-2735(SCI277VU,EI 080711099441)
[21] 譚軍軍, 陳民芳 等, 明膠對羥基磷灰石粉體形狀及尺寸的影響, 稀有金屬材料科學與工程,2008,37:473-476 (SCI V11BQ)
[22] M. F. Chen, Z.B. Cui, Electrochemical impedance spectroscopy studies of accelerated bone-like apatite growth on NiTi by pre-calcification, Journal of The Chinese Ceramic Society. 2008. 36(9): 1231-1235 (EI084211646639)
[23] 劉德寶, 陳民芳等, HA/Mg生物活性複合材料的製備及其腐蝕特性研究, 稀有金屬材料科學與工程,2008,37(12): 2201-2205. (SCI 395SA)
[24] Z. D. Cui, M. F. Chen et al, Improving the biocompatibility of NiTi alloy by chemical treatments: An in vitro evaluation in 3T3 human fibroblast cell,Materials Science and Engineering C. 2008. 28(7):1117-1122. (SCI344ZW)
[25] D. B. Liu, M. F. Chen, Preparation and characterization of copper matrix composites by reaction sintering of the Cu-Mg-B system;Journal of alloy and compounds,2008,466(1-2):87-91
[26] S. L. Zhu, M. F. Chen, et al, Effect of porous NiTi alloy on bone formation: A comparative investigation with bulk NiTi alloy for 15 weeks in vivo,Materials Science and Engineering C,2008. (SCI385YD)
[27] Minfang Chen, Debao Liu, Chen You, Interfacial characteristic of graded hydroxyapatite and titanium thin film by magnetron sputtering, Surface and coating technology,2007, 201(9-11):5688-5691.(SCI168FT,EI 070510398185)
[28] C.Y. Li, X.J. Yang, L.Y. Zhang, M.F. Chen, In vivo histological evaluation of bioactive NiTi alloy after two years implantation, Mater. Sci. & Techno. 2007(27):122-126(SCI9325130)
[29] 崔忠波, 陳民芳, 醫用NiTi合金表面該性研究, 材料導報, 2007 (21): 79-82
[30] 劉德寶 陳民芳 沈榮臻,羥基磷灰石形態結晶控制,功能材料增刊, 2007: 170-1723 (SCI)
[31] X. J. Yang, R.X. Hu, M.F. Chen, Accelerating the formation of a calcium phosphate layer on NiTi alloy by chemical treatments. Scripta Mater, 2006 (54): 1457.(SCI8910375)
[32] M.F. Chen, X.J. Yang, R.X. Hu, et al ,Bioactive NiTi alloy used as bone bonding implants. Mater. Sci. & Techno.2004;24:497-502 (SCI828SG、EI04228183447)
[33] M.F.Chen, X.J.Yang, Y.Liu et al, Study on Formation an Apatite Layer on NiTi Shape Memory Alloy by a Chemical method, Surface and coating technology, 2003; 173: 229-234 (SCI710HB、EI03307554707)
[34]陳民芳, 楊賢金, 何菲等, NaOH濃度對NiTi形狀記憶合金表面類骨磷灰石形成的影響, 金屬學報,2003; 39(8): 859-864 (SCI718CM、EI03407660986)
[35] 陳民芳, 劉技文, 楊賢金等, 射頻磁控濺射HA/TiO2複合生物膜的製備與表征, 複合材料學報, 2003; 20(6):52-56 (EI04238201756)
論著
(a)《與智慧型材料--結構演化及分析》,科學出版社,ISBN 7-03-009921-4/TB.203第六章,第七章(約15萬字);
(b)《材料科學基礎》,北京工業大學出版社 ISBN 7-5639-0934-6/G.511,2001-10-1 .
獲獎
發明專利
[1] 國家知識產權局授權的發明專利:“一種在鈦合金表面共濺射沉積HA/Ti梯度生物活性層的方法及其製品”。(專利號: ZL 02 1 58559.8)(第一名)
[2] 國家知識產權局授權的發明專利:一種濺射納米多層膜各膜層膜板的套準裝置及方法。(專利號: ZL 02 1 58560.1)(第三名)
[3] 申報國家知識產權局發明專利:“紫外光激發鈦合金表面氧化膜快速生長HA生物活性層的方法”。 (專利號: ZL 2006 1 0015425.5)(第一名)
[4] 申報國家知識產權局發明專利:生物可降解納米羥基磷灰/鎂合金血管內支架材料(專利號:ZL 2006 1 0015425.5)(第一名)
[5] 一種納米羥基磷灰石/聚合物複合骨修復替代材料的製備方法,(專利號: ZL 2007 1 0151057.1)(第一名)
[6] [5] 國家知識產權局發明專利:一種可降解Mg-Zn-Zr合金血管內支架及其綜合處理工藝,(專利號: ZL200810154353.1)(第一名)
[7] 國家知識產權局發明專利:一種可降解納米鈣磷化合物增強鎂鋅合金骨折內固定材料,(專利號: ZL200810153658.0)(第一名)
[8] 國家知識產權局發明專利:生物可降解納米羥基磷灰/鎂合金血管內支架材料(專利號:ZL 2006 1 0015425.5)(第一名)
[9] 國家知識產權局發明專利:納米硫酸鋇/聚乙烯宮銅節育器T型支架材料的製備方法,(專利號: ZL201110458998.6)(第一名)