甯聰琴

發布者:信息發布員發布時間:2021-03-01浏覽次數:7119




1. 個人簡介:

甯聰琴博士,研究員材料學專業碩士/博士生導師

郵箱:cqning@shnu.edu.cn

教育經曆:

1997-2001,博士,哈爾濱工業大學

1995-1997,碩士,哈爾濱工業大學

1991-1995學士,哈爾濱工業大學

工作經曆:

2020-至今,上海師範大學  研究員

2006-2020,中國科學院上海矽酸鹽研究所研究員研究

2003-2006美國肯塔基大學,博士後

2001-2003,上海第二醫科大學附屬第九人民醫院,博士後


2. 主要研究方向:

[1] 可降解生物活性骨修複材料

[2] 新型有機/無機齒科修複材料


3. 代表性科研項目:

[1] 燒結助劑對新型矽磷酸鈣生物陶瓷的性能調控與作用機理研究,2017-2020

[2]先進矽磷酸鈣基骨修複材料中國科學院國際合作項目(中奧)2020-2021

[3]矽磷酸鈣、二氧化矽納米微粒合成工程化技術研發國家重點研發專項2017-2020

[4]牙科修複用複合陶瓷工程化樣品的開發研究上海市科委生物醫藥支撐項目2017-2020

[5] 新型矽磷酸鈣材料生物活性機理的蛋白質組學研究中國科學院國際合作重點項目2017-2019

[6]骨組織工程用磷酸鈣/氧化矽生物活性陶瓷材料的制備與表征2007-2009


4. 代表性論文著作:


[1]C. Q. Ning*. Biomaterials for Bone Tissue Engineering. In Biomechanics and Biomaterials in Orthopedics (2nd Edition).Edited by D.G. Poitout. Springer-Verlag London, SURREY, ENGLAND.2016: 35-57.

[2]K. R. Dai*, C.Q. Ning.Shape memory alloys and their medical application. In Biomechanics and Biomaterials in Orthopedics(2nd Edition).Edited by D.G. Poitout. Springer-Verlag London, SURREY, ENGLAND. 2016: 187-195.

[3]W. Su, J. S. Guo, J. J. Xu, K. Huang, J. B. Chen, J. Jiang, G. M. Xie, J. Z. Zhao*, S. Zhao*, C. Q. Ning*. Gradient Composite Film with Calcium Phosphate Silicate for Improved Tendon–to-Bone Intergration.Chemical Engineering Journal. 2020, 404: 126473.

[4]F. Y. Deng, W. Y. Zhai, C. Q. Ning*.Advanced protein adsorption properties of a novel silicate-based bioceramic: a proteomic analysis.Bioactive materials. 2021, 6: 208-218.

 [5]F. Y. Deng, J. C. Rao, C. Q. Ning*. Ferric oxide: A favorable additive to balance mechanical strength and biological activity of silicocarnotite bioceramic.Journal of the Mechanical Behavior of Biomedical Materials. 2020, 109: 103819.

[6]J. K. Zeng, J. S Guo, Z. Y. Sun, F. Y. Deng, C. Q. Ning*, Y. Z. Xie*. Osteoblastic and anti-osteoclastic activities of strontium-substituted silicocarnotite ceramics: in vitro and in vivo studies. Bioactive Materials. 2020, 5: 435-446.

 [7]S. X. Xu, Q. Wu, J. Wu, H. M. Kou, Y. J. Zhu, C. Q. Ning*, K. R. Dai. Ultrasound-assisted synthesis of nanocrystallized silicocarnotite biomaterial with improved sinterability and osteogenic activity. Journal of Materials Chemistry B. 20208(15): 3092-3103.

 [8]J. S. Guo, K. Li, C. Q. Ning*, X. Y. Liu*. Improved cellular bioactivity by heparin immobilization on polycarbonate film via an aminolysis modification for potential tendon repair. International Journal of Biological Macromolecules. 2020, 142: 835-845.

 [9]S. X. Xu, H. M. Kou*, Y. P. Guo, C. Q. Ning*. Highly dense Ca5(PO4)2SiO4 bioceramics with ultrafine microstructure prepared by pressureless sintering. Ceramics International. 2019,45: 23728-23733.

 [10]F. Wang, J. S. Guo, K. Li, J. Sun, Y. P. Zeng, C. Q. Ning*. High strength polymer/silicon nitride composites for dental restorations. Dental Materials. 2019, 35(9): 1254-1263.

 [11]J. S. Guo, S. Wei, J. Jia, C. Q. Ning*, J. Z. Zhao*, X. Y. Liu*. Enhanced tendon to bone healing in rotator cuff tear by PLLA/CPS composite films prepared by a simple melt-pressing method: an in vitro and in vivo study. Composites Part B: Engineering. 2019, 165: 526-536.

 [12]F. Y. Deng, F. Wang, Z. W. Liu, H. M. Kou, G. F. Cheng, C. Q. Ning*. Enhanced mechanical property of Ca5(PO4)2SiO4 bioceramic by a biocompatible sintering aid of zinc oxide. Ceramics International. 2018, 44: 18352-18362.

  [13]J. S. Guo, C. Q. Ning*, X. Y. Liu. Bioactive calcium phosphate silicate ceramic surface-modified PLGA for tendon-to-bone healing. Colloids and Surfaces B: Biointerfaces. 2018, 164: 388-395.

 [14]F. Wang, Y. Y. Xiong, C. Q. Ning*, J. Sun, Y. P. Zeng. Effects of pore connectivity and microstructure on mechanical performance of ZrO2 scaffolds and PMMA-infiltrated ZrO2 composites. Journal of Alloys and Compounds. 2017, 728: 189-195.

 [15]S. Zhao, L. J. Peng, G. M. Xie, D. F. Li, J. Z. Zhao, C. Q. Ning*. Effect of the Interposition of Calcium Phosphate Materials on Tendon-Bone Healing During Repair of Chronic Rotator Cuff Tear. American Journal of Sports Medicine. 2014, 42(8): 1920-1929.

 [16]W. Duan, C. Q. Ning*, T. T. Tang. Cytocompatibility and osteogenic activity of a novel calcium phosphate silicate bioceramic: Silicocarnotite. Journal of Biomedical Materials Research Part A. 2013, 101A (7): 1955-1961.

 [17]Y. P. Guo, Y. B. Yao, Y. J. Guo, C. Q. Ning*. Hydrothermal fabrication of mesoporous carbonated hydroxyapatite microspheres for a drug delivery system. Microporous and Mesoporous Materials. 2012, 155: 245-251.

 [18]W. H. Lu, W. Duan, Y. P. Guo,C. Q. Ning*.Mechanical Properties and in Vitro Bioactivity of Ca5(PO4)2SiO4 Bioceramic. Journal of Biomaterials Applications. 2012, 26: 637-650.

 [19]Y. P. Guo, L. H. Guo, Y. B. Yao,C. Q. Ning*, Y. J. Guo. Magnetic mesoporous carbonated hydroxyapatite microspheres with hierarchical nanostructure for drug delivery systems. Chemical Communications. 2011, 47,12215-12217.

 [20]C. Q. Ning*, D. Y. Ding, K. R. Dai, W. Y. Zhai, L. Chen. The effect of Zr content on the microstructure, mechanical properties and cell attachment of Ti–35Nb–xZr alloys. Biomedical Materials. 2010, 5(4): 045006.

 [21]D.Y. Ding, C. Q. Ning*, L. Huang, F. C. Jin, Y. Q. Hao, S. Bai, Y. Li, M. Li, D. L. Mao. Anodic fabrication and bioactivity of Nb-doped TiO2 nanotubes. Nanotechnology. 2009, 20: 305103 (6pp).

[22]C. Q. Ning, Y. Zhou. Correlations between the in vitro and in vivo bioactivity of the Ti/HA composites fabricated by powder metallurgy method. ActaBiomaterialia. 2008, 4: 1944-1952.

[23]C. Q. Ning*, J. Mehta, A. El-Ghannam. Effects of Silica on the Bioactivity of Calcium Phosphate Composites in vitro.Journal of Materials Science: Materials in Medicine. 2005, 16 (4): 355-360.

[24]C. Q. Ning*, Y. Greish, A. El-Ghannam.Crystallization behavior of silica-calcium phosphate biocomposites: XRD and FTIR studies. Journal of Materials Science: Materials in Medicine. 2004, 15 (11): 1227-1235.

[25]C. Q. Ning*, Y. Zhou. On the microstructure of biocomposites sintered from Ti, HA and bioactive glass. Biomaterials. 2004, 25: 3379-3387.

[26]C. Q. Ning*, Y. Zhou. In vitro bioactivity of a biocomposite fabricated from HA and Ti powders by powder metallurgy method. Biomaterials. 2002, 23: 2909-2915.

[27]甯聰琴*,戴尅戎, 湯亭亭. 硬組織替換用羟基磷灰石複合材料的研究進展.生物醫學工程學雜志, 2003, 20: 550-554.

[28]甯聰琴*, 周玉. 醫用钛合金的發展與研究現狀.材料科學與工藝, 2002, 10(1): 100-106.


5. 學術兼職與榮譽:

  1. 美國陶瓷學會旗下International Journal of Applied Ceramic Technology副主編

  2. Journal of Biomaterials and Tissue Engineering編委

  3. 中國生物材料學會植入材料與器械專委會委員

  4. 中國矽酸鹽學會特種陶瓷分會第九屆理事會理事

  5. 中國專利審查技術專家(JSZJ0969

  6. 上海市女科學家聯誼會第八屆理事會理事

  7. 上海市科技黨委三八紅旗集體(2014年)

  8. 上海市巾帼文明崗(2015年)


6. 代表性授權及申請專利:

  1. 甯聰琴,趙迎珂,常江,矽酸鈉鈣(Na2CaSiO4)生物材料的制備方法及其用途,專利号:ZL200810200172.8

  2. 甯聰琴,魯文豪,矽磷酸鈣生物材料及其制備方法和用途,專利号:ZL201010202227.6

  3. 甯聰琴,魯文豪,矽磷酸鈣生物材料及其制備方法和用途,專利号:ZL201310046949.0

  4. 甯聰琴,魯文豪,矽磷酸鈣生物材料及其制備方法和用途,專利号:ZL201310046999.9

  5. 甯聰琴,袁萍, 具有藥物緩釋作用的有機/無機複合三維多孔支架及其制備方法,專利号:ZL201310116098.2

  6. 王鋒,聰琴,一種複合陶瓷材料及其制造方法和應用,專利号:ZL201710071165.1

  7. 王鋒,聰琴,曾宇平一種氮化矽-樹脂雙連續相複合陶瓷材料及其制造方法和應用,專利号:ZL201710228918.5

  8. 鄧繁豔甯聰琴一種兼具力學強度和降解性的生物活性陶瓷材料及其制備方法專利申請号:201810175064.3

  9. 鄧繁豔甯聰琴一種高強度矽磷酸鈣生物陶瓷材料及其制備方法專利号ZL201810175886.1

  10. 甯聰琴,郭勁書,趙金忠,蘇為,一種梯度複合材料及其制備方法和應用,專利号:ZL201810584325.7

  11. 甯聰琴,許順祥寇華敏一種矽磷酸鈣納米粉體、制備方法和應用專利申請号:2018114592417

  12. 甯聰琴劉曉丹寇華敏一種超細矽磷酸鈣粉體的水熱法制備及其應用,專利申請号:2018114567364

  13. 甯聰琴,可,一種高強度二矽酸锂玻璃陶瓷及其制備方法和應用專利申請号:2019111725445



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