Biomedical Engineering Reference
In-Depth Information
356.
Nanoelectronics
; Wang, S. Y.; Williams, R. S., Eds.; Springer: New York, 2005.
357. Andrianantoandro, E.; Basu, S.; Karig, D. K.; Weiss, R. Synthetic biology: new engineering
rules for an emerging discipline.
Mol. Syst. Biol.
2006,
2,
E1-E14, msb4100073.
358. Armentano, I.; Dottori, M.; Fortunati, E.; Mattioli, S.; Kenny, J. M. Biodegradable Polymer
Matrix Nanocomposites for Tissue Engineering: A Review.
Polym. Degrad. Stabil.
2010,
95,
2126-2146.
359. Hong, Z. K.; Zhang, P.; He, C.; Qiu, X.; Liu, A.; Chen, L., et al. Nano-Composite of Poly
(L-lactide) and Surface Grafted Hydroxyapatite: Mechanical Properties and Biocompatibility.
Biomaterials
2005,
26,
6296-6304.
360. Otsuka, H.; Nagasaki, Y.; Kataoka, K. Dynamic Wettability Study on the Functionalized
PEGylated Layer on a Polylactide Surface Constructed by Coating of Aldehyde-ended
Poly(Ethylene Glycol) (PEG)/Polylactide (PLA) Block Copolymer.
Sci. Technol. Adv. Mater.
2000,
1,
21-29.
361. Paiva, M. C.; Zhou, B.; Fernando, K. A. S.; Lin, Y.; Kennedy, J. M.; Sun, Y. P. Mechanical and
Morphological Characterization of Polymere Carbon Nanocomposites from Functionalized
Carbon Nanotubes.
Carbon
2004,
42,
2849-2854.
362. Pattison, M. A.; Wurster, S.; Webster, T. J.; Haberstroh, K. M. Three-Dimensional, Nano-
Structured PLGA Scaffolds for Bladder Tissue Replacement Applications.
Biomaterials
2005,
26,
2491-2500.
363. Tang, Z. G.; Black, R. A. Surface Properties and Biocompatibility of Solvent-Cast Poly[3-
caprolactone] Films.
Biomaterials
2004,
25,
4741-4748.
364. Wu, D.; Wu, L.; Sun, Y.; Zhang, M. Rheological Properties and Crystallization Behavior of
Multi-walled Carbon Nanotube/Poly(3-caprolactone) Composites. 2007,
25
, 3137-3147.
365. Xiao, G. Solvent-Induced Changes on Corona-Discharge-Treated Polyolefin Surfaces Probed
by Contact Angle Measurement.
J. Colloid Interface Sci.
1995,
171,
200-204.
366. Klein, C. P. A.T.; Driessen, A. A.; de Groot, K.; van den Hooff, A. Biodegradation Behaviour
of Various Calcium Phosphate Materials in Bone Tissue.
J Biomed. Mater. Res.
2004,
17,
769-784.
367. Rezwan, K.; Chen, Q. Z.; Blaker, J. J.; Boccaccini, A. R. Biodegradable and Bioactive Porous
Polymer/Inorganic Composite Scaffolds for Bone Tissue Engineering.
Biomaterials
2006,
27
.
368. Jan, E.; Kotov, N. A. Successful Differentiation of Mouse Neural Stem Cells on Layer-by-
layer Assembled Single-walled Carbon Nanotube Composite.
Nano Lett.
2007,
7,
1123-1128.
369. Ferraz, M. P.; Monteriro, F. J.; Manuel, C. M. Hydroxyapatite Nanoparticles: A Review of
Preparation Methodologies.
J. Appl. Biomater. Biomech.
2004,
2,
74-80.
370. Hench, L. L.; Polak, J. M. Third-Generation Biomedical Materials.
Science
2002,
295,
1014-
1017.
371. Kretlow, J. D.; Mikos, A. G. Review: Mineralization of Synthetic Polymer Scaffolds for Bone
Tissue Engineering.
Tissue Eng.
2007,
13,
927-938.
372. Lee, J. Y.; Nagahata, J. L. R.; Horiuchi, S. Effect of Metal Nanoparticles on Thermal Stabiliza-
tion Of Polymer/Metal Nanocomposites Prepared by a One-step Dry Process.
Polymer
2006,
47,
7970-7979.
373. Woodard, R.; Hilldore, A. J.; Lan, S. K.; Park, C. J.; Morgan, A. W.; Eurell, J. A. C., et al. The
Mechanical Properties and Osteoconductivity of Hydroxyapatite Bone Scaffolds With Multi-
Scale Porosità.
Biomaterials
2007,
28,
45-54.
374. Imanaka, N.; Masui, T.; Hirai, H.; Adachi, G. Do Nanoparticles and Sunscreens mix?.
Chem
Mater
2003,
15,
2289-2291.
375. Webster, T. J.; Siegel, R. W.; Bizios, R. Osteoblast Adhesion on Nanophase Ceramics.
Bioma-
terials
1999,
20,
1221-1227.