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刘海峰
2023-05-06 10:05
  • 刘海峰
  • 刘海峰 - 教授-北京航空航天大学-生物与医学工程学院-个人资料

近期热点

资料介绍

个人简历


2018 – 至今 北京航空航天大学、生物与医学工程学院、教授\r
2009 – 2018 北京航空航天大学、生物与医学工程学院、副教授\r
2004 – 2009 新加坡国立大学、组织工程中心、Research Fellow\r
2001 – 2004 天津大学、生物医学工程学专业、工学博士学位

研究领域


生物医用材料\r
干细胞\r
再生医学\r
药物控释和基因载体""

近期论文


Niu YM, Chen XF, Yao DY, Peng G, Liu HF, Fan YB. Enhancing neural differentiation of induced pluripotent stem cells by conductive graphene/silk fibroin films. Journal of Biomedical Materials Research Part A 2018, DOI:10.1002/jbm.a.36486.\r
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Yao DY, Qian ZY, Zhou J, Peng G, Zhou G, Liu HF, Fan YB. Facile incorporation of REDV into porous silk fibroin scaffolds for enhancing vascularization of thick tissues. Materials Science & Engineering C 2018, 93: 96-105.\r
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Liu Q, Jiang N, Liu DW, Ying GL, Shi QS, Yetisen AK, Liu HF, Fan YB. Monodispersed silk fibroin microdroplets for protein stabilization. Applied Physics Letters 2018, 112, 173701.\r
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Ma CP, Peng G, Nie L, Liu HF, Guan YC. Laser surface modification of Mg-Gd-Ca alloy for corrosion resistance and biocompatibility enhancement. Applied Surface Science 2018, 445: 211-216.\r
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Liu Q, Liu YH, He HP, Wang F, Yao DY, He FF, Liu HF, Fan YB. Silk fibroin scavenges hydroxyl radicals produced from a long-term stored water-soluble fullerene system. Journal of Materials Chemistry B 2018, 6: 769-780.\r
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Liu HF, Gong XH, Jing XH, Ding XL, Yao Y, Huang Y, Fan YB. Shear stress with appropriate time step and amplification enhances endothelial cell retention on vascular grafts. Journal of Tissue Engineering and Regenerative Medicine 2017, 11: 2965-2978.\r
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Yao DY, Peng G, Qian ZY, Niu YM, Liu HF, Fan YB. Regulating coupling efficiency of REDV by controlling silk fibroin structure for vascularization. ACS Biomaterials Science & Engineering 2017, 3: 3515-3524.\r
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Liu JL, Qian ZY, Shi Q, Yang S, Wang QX, Liu B, Xu J, Guo XM, Liu HF. An asymmetric wettable chitosan-silk fibroin composite dressing with fixed silver nanoparticles for infected wound repair: in vitro and in vivo evaluation. RSC Advances 2017, 7: 43909-43920.\r
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Wang DY, Y Sun, XL Ding, G Peng, TQ Zou, Liu HF, Fan YB. Influence of micropatterned silk fibroin films on human umbilical endothelial cell behaviors. Journal of medical and biological engineering 2017, 37: 750-759.\r
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Qian ZY, Wang HP, Tuo XY, Guo HY, Xu P, Liu DH, Wei Y, Liu HF, Fan YB, Guo XM. A porous sodium polyacrylate-grafted chitosan xerogel for severe hemorrhage control synthesized from one-pot reaction. Journal of Materials Chemistry B 2017, 5: 4845-4851.\r
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Peng G, Liu HF, Fan YB. Biomaterial scaffolds for reproductive tissue engineering. Annals of Biomedical Engineering 2017, 45: 1592-1607.\r
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Yang Y, Ding XL, Zou TQ, Peng G, Liu HF, Fan YB. Preparation and characterization of electrospun graphene/silk fibroin conductive fibrous scaffolds. RSC Advances 2017, 7: 7954-7963.\r
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Yao DY, Liu HF, Fan YB. Fabrication of water-stable silk fibroin scaffolds through self-assembly of proteins. RSC Advances 2016, 6: 61402-61409.\r
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Ding XL, Zou TQ, Gong XH, Ren CH, Kang HY, Xu P, Liu HF, Fan YB. Tri-layered sulfated silk fibroin vascular grafts enhanced with braided silk tube. Journal of Bioactive and Compatible Polymers 2016, 31: 613-623.\r
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Ding XL, Wu CQ, Ha T, Wang LZ, Huang Y, Kang HY, Zhang YY, Liu HF, Fan YB. Hydroxyapatite-containing silk fibroin nanofibrous scaffolds for tissue-engineered periosteum. RSC Advances 2016, 6: 19463-19474.\r
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Zou TQ, Fan JB, Fartash A, Liu HF, Fan YB. Cell-based strategies for vascular regeneration. J Biomed Mater Res Part A 2016, 104: 1297-1314.\r
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Ding XL, Wei X, Huang Y, Guan CD, Zou TQ, Wang S, Liu HF, Fan YB. Delivery of demineralized bone matrix powder using a salt-leached silk fibroin carrier for bone regeneration. Journal of Materials Chemistry B 2015, 3: 3177-3188.\r
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Ding XL, Liu HF, Fan YB. Graphene-based materials in regenerative medicine. Advanced healthcare materials 2015, 4: 1451-1468.\r
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Yao Y, Liu HF, Ding XL, Jing XH, Gong XH, Zhou G, Fan YB. Preparation and characterization of silk fibroin/poly(L-lactide-co-ε-caprolactone) nanofibrous membranes for tissue engineering applications. Journal of Bioactive and Compatible Polymers 2015, 30: 633-648.\r
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Liu HF, Wei X, Ding XL, Li XM. Zhou G, Li P, Fan YB. Comparison of cellular responses of mesenchymal stem cells derived from bone marrow and synovium on combined silk scaffolds. Journal of Biomedical Materials Research Part A 2015, 103A: 115-125.\r
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Gong XH, Liu HF, Ding XL, Liu ML, Li XM, Zheng LS, Jia XL, Zhou G, Zou YW, Li JC, Huang XJ, Fan YB. Physiological pulsatile flow culture conditions to generate functional endothelium on a sulfated silk fibroin nanofibrous scaffold. Biomaterials 2014, 35: 4782-4791.\r
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Liu HF, Ding XL, Bi YX, Gong XH, Li XM. Zhou G, Fan YB. In vitro evaluation of combined sulfated silk fibroin scaffolds for vascular cell growth. Macromolecular Bioscience 2013, 13, 755-766.\r
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Li Q, Wang JL, Liu HF, Xie B, Wei LH. Tissue-engineered mesh for pelvic floor reconstruction fabricated from silk fibroin scaffold with adipose-derived mesenchymal stem cells. Cell and Tissue Research 2013, 354(2):471-80.\r
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Li XM, Liu HF, Niu XF, Yu B, Fan YB, Feng QL, Cui FZ, Watari F. The use of carbon nanotubes to induce osteogenic differentiation of human adipose-derived MSCs in vitro and ectopic bone formation in vivo. Biomaterials 2012, 33: 4818-4827.\r
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Liu HF, Li XM, Zhou G, Fan HB, Fan YB. Electrospun sulfated silk fibroin nanofibrous scaffolds for vascular tissue engineering. Biomaterials, 2011, 32: 3784-3793.\r
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Liu HF, Li XM, Niu XF, Zhou G, Li P, Fan YB. Improved hemocompatibility and endothelialization of vascular grafts by covalent immobilization of sulfated silk fibroin on poly(lactic-co-glycolic acid) scaffolds. Biomacromolecules, 2011, 12: 2914-2924.\r
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Fan HB, Liu HF, Toh SL, Goh JCH. Anterior cruciate ligament regeneration using mesenchymal stem cells and silk scaffold in large animal model. Biomaterials, 2009, 30: 4967-4977.\r
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Liu HF, Fan HB, Wang Y, Toh SL, Goh JCH. The interaction between a combined knitted silk scaffold and microporous silk sponge with human mesenchymal stem cells for ligament tissue engineering. Biomaterials, 2008, 29: 662-674.\r
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Liu HF, Fan HB, Toh SL, Goh JCH. A comparison of rabbit mesenchymal stem cells and anterior cruciate ligament fibroblasts responses on combined silk scaffolds. Biomaterials, 2008, 29: 1443-1453.\r
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Fan HB, Liu HF, Toh SL, Goh JCH. Enhanced differentiation of mesenchymal stem cells co-cultured with ligament fibroblasts on gelatin-silk fibroin hybrid scaffold. Biomaterials, 2008, 29: 1017-1027.\r
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Fan HB, Liu HF, Wong EJW, Toh SL, Goh JCH. In vivo study of anterior cruciate ligament regeneration using mesenchymal stem cells and silk scaffold. Biomaterials, 2008, 29: 3324-3337.\r
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Liu HF, Fan HB, Cui YL, Chen YP, Yao KD, Goh JCH. Effects of the controlled-released basic fibroblast growth factor from chitosan-gelatin microspheres on fibroblasts cultured on a chitosan-gelatin scaffold. Biomacromolecules, 2007, 8: 1446-1455.\r
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Liu HF, Ge ZG, Wang Y, Toh SL, Sutthikhum V, Goh JCH. Modification of sericin-free silk fibers for ligament tissue engineering application. Journal of Biomedical Materials Research: Part B - Applied Biomaterials, 2007, 82B: 129-138.\r
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Liu HF, Yin YJ, Yao KD. Construction of chitosan-gelatin-hyaluronic acid artificial skin in vitro. Journal of Biomaterials Applications, 2007, 21: 413-430.\r
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Liu HF, Yao FL, Zhou YT, Yao KD. Porous Poly (DL-Lactic Acid) Modified Chitosan-Gelatin Scaffolds for Tissue Engineering. Journal of Biomaterials Applications, 2005, 19: 303-322.\r
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Liu HF, Yin YJ, Yao KD, Ma DR, Cui L, Cao YL. Influence of the concentration of hyaluronic acid on the properties and biocompatibility of Cs-Gel-HA membranes. Biomaterials, 2004, 25: 3523-3530.
中国生物医学工程学会体外反搏分会委员
中国解剖学会血管分会委员
中国生物医学工程学会组织工程与再生医学分会青年委员

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