Biomedical Engineering Reference
In-Depth Information
lent potential to be developed for a variety of tissue engineering
applications.
References
1. D. H. Renekerand I. Chun,
Nanotechnology
,
216
(1996).
2. P. P. Tsai, H. Schreuder-Gibson, and P. Gibson,
J. Electrostat.
,
333
(2002).
3.D.R.Nisbet,J.S.Forsythe,W.Shen,D.I.Finkelstein,andM.K.Horne,
J. Biomater. Appl.
, doi: 10.1177/0885328208099086(2008).
4. D. Smith and D. H. Reneker,
PCT/US
,00/27737 (2001).
5. R.Vasitaand D.S.Katti.
Int. J. Nanomed
.,
15
(2006).
6.A.G.MacDiarmid,W.E.Jones,I.D.Noris,J.Gao,A.T.Johnson,N.J.Pinto,
J. Hone, B. Han, F. K. Ko, H. Okuzaki, and M. Llaguno,
Synth. Met.
,
27
(2001).
7. D. H. Reneker, A. L. Yarin, H. Fong, and S. Koombhongse,
J. Appl. Phys.
,
4531
(2000).
8. A. Formhals,
US Patent No.1
,
975
,504 (1934).
9. G. E. Martin and I. Cockshott,
US Patent No. 4
,
043
,331 (1977).
10. S. R.Bhattarai, N. Bhattarai, H. K. Yi,P. H. Hwang, D.I. Cha, andH. Y. Kim,
Biomaterials
,2595 (2004).
11. Z. M. Huang, Y. Z. Zhang, M. Kotaki, and S. Ramakrishna,
Compos. Sci.
Technol
.,
2223
(2003).
12. G. E. Martin, I. D. Cockshott, and F. J. T. Fildes,
US Patent
,
4044404
(1977).
13. N. Bhattarai, D. Edmondson, and O. Veiseh,
Biomaterials
,
6176
(2005).
14. M.S.Khil,D.I.Cha,H.Y.Kim,I.S.Kim,andN.Bhattarai,
J. Biomed. Mater.
Res. B Appl. Biomater.
,
675
(2003).
15. R. Langer and J. Vacanti,
Tissue Eng. Sci.
,
260920
(1993).
16. R. A. F. Clark, A. J. Singer, R. P. Lanza, R. Langer, and J. Vacanti, Eds.,
Prin-
ciples of Tissue Engineering
(Academic Press: San Diego, 2nd ed., 2000),
p.855.
17. B.M.Min,G.Lee,S.H.Kim,Y.S.Nam,T.S.Lee,andW.H.Park,
Biomateri-
als
,
1289
(2004).
18. M. S. Khil, S. R. Bhattarai, H. Y. Kim, S. Z. Kim, and K. H. Lee,
J. Biomed.
Mater. Res. B Appl. Biomater.
,
117
(2005).
19. X. Mo and H. J. Weber,
Macromol. Symp.
,
413
(2004).
Search WWH ::
Custom Search