People‎ > ‎Dr. Qiang Fu‎ > ‎

Full Pulication list of Dr. Qiang Fu

  1. X. Liu, M.N. Rahaman, Qiang Fu, A.P. Tomsia. Porous and strong bioactive glass (13-93) scaffolds prepared by unidirectional freezing of camphene-based suspensions. Acta Biomater 2011 In press.
  2. Qiang Fu, E. Saiz, A.P. Tomsia. Direct ink writing of highly porous and strong glass scaffolds for load-bearing bone defects repair and regeneration. Acta Biomater 7:3547-3554 (2011).
  3. Qiang Fu, W. Huang, W. Jia, M. N. Rahaman, X. Liu, A. P. Tomsia, Three-dimensional visualization of bioactive glass-bone integration in a rabbit tibia model using synchrotron X-ray micro computerized tomography (SR microCT). Tiss Eng Part A (2011) In press.
  4. M. N. Rahaman, D. E. Day, B. S. Bal, Qiang Fu, S. B. Jung, L. F. Bonewald, A. P. Tomsia. Bioactive Glass in Tissue Engineering. Acta Biomater 7:2355-2373 (2011).
  5. Qiang Fu, E. Saiz, M. N. Rahaman, A. P. Tomsia. Bioactive Glass scaffolds for Bone Tissue Engineering: State of the Art and Future Perspectives. Mater Sci Eng: C 31: 1245-1256 (2011).
  6. Qiang Fu, E. Saiz, A. P. Tomsia. Bioinspired Strong and Highly Porous Glass Scaffolds. Adv Funct Mater 21: 1058-1063 (2011). 
  7. X. Liu, M. N. Rahaman, and Qiang Fu. Oriented Bioactive Glass (13-93) Scaffolds with Controllable Pore Size by Unidirectional Freezing of Camphene-Based Suspensions: Microstructure and Mechanical Response. Acta Biomater. 7:406-416 (2011).
  8. Qiang Fu, M. N. Rahaman, H. Fu, and X. Liu. Silicate, Borosilicate, and Borate Bioactive Glass Scaffolds with Controllable Degradation Rates for Bone Tissue Engineering Applications, I: Preparation and In Vitro Degradation. J. Biomed. Mater. Res. Part A 95A:164-171 (2010). 
  9. Qiang Fu, M. N. Rahaman, B. S. Bal, K. Kuroki, and R. F. Brown. Silicate, Borosilicate and Borate Bioactive Glass Scaffolds with Controllable Degradation Rates for Bone Tissue Engineering Applications, II: In Vitro and In Vivo Biological Evaluation. J. Biomed. Mater. Res. Part A 95A:172-179 (2010).
  10. Qiang Fu, M. N. Rahaman, B. S. Bal, K. Kuroki, R. F. Brown. In Vivo Evaluation of 13-93 Bioactive Glass Scaffolds with Trabecular and Oriented Microstructures in a Subcutaneous Rat Implantation Model. J. Biomed. Mater. Res. Part A 95A:235-244 (2010).
  11. X. Liu, H. Pan, H. Fu, Qiang Fu, M.N. Rahaman, W. Huang. Conversion of borate-based glass scaffold to hydroxyapatite in dilute phosphate solution. Biomedical Materials 5:015005(2010).
  12. X. Liu, Z. Xie, C. Zhang, H. Pan, M.N. Rahaman, X. Zhang, Qiang Fu, W. Huang. Bioactive Borate Glass Scaffolds: In Vitro and In Vivo Evaluation for Use as a Drug Delivery System in the Treatment of Bone Infection. J Mater Sci Mater Med 21:575-582 (2010).
  13. Qiang Fu, M. N. Rahaman, R. F. Brown, and B. S. Bal. Preparation and In Vitro Evaluation of Bioactive Glass (13-93) Scaffolds with Oriented Microstructures for Repair and Regeneration of Load-Bearing Bones. J. Biomed. Mater. Res. Part A (2009).93A:1380-1390 
  14. Qiang Fu, M. N. Rahaman, and D. E. Day. Accelerated Conversion of Silicate Bioactive Glass (13-93) to Hydroxyapatite in Aqueous Phosphate Solution Containing Polyanions. J. Am. Ceram. Soc. 92:2870-2876 (2009).
  15. H. Fu, Qiang Fu, N Zhou, W Huang, M. N. Rahaman, D Wang and X Liu. In vitro evaluation of borate-based bioactive glass scaffolds prepared by a polymer foam replication method. Mater Sci. Eng. C. 29:2275-2281 (2009).
  16. Qiang Fu, M. N. Rahaman, B. S. Bal and R. F. Brown, In Vitro Cellular Response to Hydroxyapatite Scaffolds with Oriented Pore Architectures. Mater. Sci. Eng. C 29:2147-2153 (2009).
  17. Qiang Fu, O Jongprateep, A Abbott and F. Dogan, Freeze-spray Depositin of Layered Alumina/Zironia Composites. Mater. Sci. Eng. B 161: 120-124 (2009).
  18. Qiang Fu, M. N. Rahaman, B. S. Bal and R. F. Brown, Proliferation and Function of MC3T3-E1 Cells on Freeze-Cast Hydroxyapatite Scaffolds with Oriented Pore Architectures. J. Mater. Sci: Mater Med. 20: 1159-65 (2009). (Highlight as one of the key articles of JMSM)
  19. M. N. Rahaman, Qiang Fu, Manipulation of Porous Bioceramic Microstructures by Freezing of Aqueous Suspensions with Binary Mixtures of Solvents. J. Am. Ceram. Soc. 91(12): 4137-4140 (2008).
  20. Qiang Fu, M. N. Rahaman,R. F. Brown, B. S. Bal and, D. E. Day, Mechanical and In Vitro Performance of 13-93 Bioactive Glass Scaffolds Prepared by a Polymer Foam Replication Technique. Acta Biomater. 4(6): 1854-64 (2008).
  21. Qiang Fu, M. N. Rahaman, F. Dogan and B. S. Bal, Freeze-Cast Hydroxyapatite Scaffolds for Bone Tissue Engineering Applications, Biomed. Mater. 3: 025005 (2008). (Highlight as one of the best articles in Biomed Mater 2008)
  22. Qiang Fu, M. N. Rahaman, F. Dogan and B. S. Bal, Freeze casting of porous hydroxyapatite scaffolds - I. Processing and general microstructure. J. Biomed. Mater. Res. Part B. 86B(1): 125-135 (2008).
  23. Qiang Fu, M. N. Rahaman, F. Dogan and B. S. Bal, Freeze casting of porous hydroxyapatite scaffolds - II. Sintering, microstructure, and mechanical behavior. J. Biomed. Mater. Res. Part B. 86B(2): 514-522 (2008).
  24. Qiang Fu, M. N. Rahaman, N. Zhou, W. Huang, D. P. Wang, L. Zhang. In vitro study on different cell response to spherical hydroxyapatite nanoparticles. J Biomater. Appl. 23(1): 37-50 (2008).
  25. Y. Li, M.N. Rahaman, B.S. Bal, D.E. Day and Qiang Fu, Early stages of calcium phosphate formation on bioactive borosilicate glass in aquesous phosphate solution. J. Am. Ceram. Soc. 91(5):1528-1533 (2008).
  26. R. F. Brown, D.E. Day, T.E. Day, S. Jung, M.N. Rahaman, Qiang Fu.Growth and differentiation of osteoblastic cells on 13-93 bioactive glass fibers and scaffolds. Acta Biomater. 4(2): 387-396 (2008).
  27. Y. Li, M.N. Rahaman, Qiang Fu, B.S. Bal, A Yao and D. E. Day, Conversion of Bioactive Borosilicate Glass to Multilayered Hydroxyapatite in Dilute Phosphate Solution. J. Am. Ceram. Soc. 90(12):3804-3810 (2007).
  28. Qiang Fu, M. N. Rahaman, W. Huang, D. E. Day, and B. S. Bal, Preparation and Bioactive Characteristics of a Porous 13-93 Glass, and its Fabrication into the Articulating Surface of a Proximal Tibia. J. Biomed. Mater. Res. 82A(1): 222-229 (2007).
  29. A. Yao, D. P. Wang, W. Huang, Qiang Fu, M. N. Rahaman, and D. E. Day, In Vitro Bioactive Characteristics of Borate-Based Glasses with Controllable Degradation Behavior. J. Am. Ceram. Soc., 90 (1): 303-306 (2007).
  30. A. Yao, D. P. Wang, Qiang Fu, W. Huang, and M. N. Rahaman. Preparation of Bioactive Glasses with Controllable Degradation Behavior and their Bioactive Characterization. Chn. Sci. Bull. 52 (2) 272-276 (2007).
  31. Jia Ning, Aihua Yao, Hailuo Fu, Qiang Fu, Deping Wang, Wenhai Huang, MN Rahaman, Xin Liu. Bioactivity and cytocompatibility of borosilicate bioglass. J. Clin. Reh. Tiss. Eng. Res 35(2): 7041-7043 (2007).
  32. Qiang Fu, N. Zhou, W. Huang, D. P. Wang, L. Zhang, H. Li, Effects of nano HAP on biological and structural properties of glass bone cement. J. Biomed. Mater. Res. Part A, 74(2): 156-163 (2005).
  33. Qiang Fu, N. Zhou, W. Huang, D. P. Wang, L. Zhang, Formation and characterization of bone-like nanoscale hydroxyapatite in glass bone cement. J. Mater. Sci. Technol., 20(6): 772-774 (2004).
  34. Qiang Fu, N. Zhou, W. Huang, D. P. Wang, L. Zhang, H. Li, Preparation and characterization of a novel bioactive bone cement: glass based nanoscale hydroxyapatite bone cement. J. Mater. Sci. Mater. Med., 15: 1333-1338 (2004).
  35. Qiang Fu, Nai Zhou, Wenhai Huang, Deping Wang, Liying Zhang. Microstructure and mechanical properties of self-setting glass based bone cement in simulated body fluid. J. Chn. Ceram. Soc. 32(7): 117-121 (featured as cover of the issue) (2004).
  36. Qiang Fu, Nai Zhou, Wenhai Huang, Deping Wang, Liying Zhang. Research on the formation of nano-size hydroxyapatite in glass based bone cement. J. Funct. Mater. 35(3): 376-378 (2004).
  37. Qiang Fu, Nai Zhou, Wenhai Huang, Deping Wang. An investigation on the bioactivity of glass based bone cement. J. Tongji Univer. (natural science). 2004,32(9): 1178-1182 (2004).
  38. Qiang Fu, Nai Zhou, Wenhai Huang, Deping Wang, Liying Zhang, Bo Wang. Research on the formation of nano-size hydroxyapatite in glass based bone cement. J. Build. Mater. 7(3):354-359 (2004).
  39. Qiang Fu, Nai Zhou, Wenhai Huang. Advances in research on glass-based bone cement. J. Build. Mater. 6(3): 285-290 (2003).