By Roger Narayan, P. N. Kumta, W. R. Wagner
A suite of articles from the Advances in Biomedical and Biomimetic fabrics symposium provide perception into advances in biomedical and biomimetic fabrics. those chosen articles hide such subject matters as scaffolds for tissue engineering, bioceramics, biomimetic fabrics, nanoparticles for clinical prognosis and remedy, and novel fabrics for drug supply and biosensing.
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Extra resources for Advances in Biomedical and Biomimetic Materials: Ceramic Transactions,206 (Ceramic Transactions Series)
M. Gruner, Biomimetic pathways for assembling inorganic thin films. Science 273, 892-98 (1996). Advances in Biomedical and Biornirnetic Materials . 23 Bioinspired Ceramic Microstructures Prepared by Freezing of Suspensions 4A. Sellinger, et al. Continuous self-assembly of organic-inorganic nanocomposite coatings that mimic nacre. Nature 394,25640 (1998). , Ozturk, B. Nanostructured artificial nacre. Nature Mater. A. Meyers, P. Y. Seki, Biological materials: structure and mechanical qroperties. Prog.
Biomaterials, 20, (1999), 393-398. 10 L. Roemhildt, T. D. Mcgee, S. D. Wagner “Novel Calcium Phosphate Composite Bone Cement: Strength and Bonding Properties”. J. Mat. : Materials in Medicine, 14, (2003), 137141. “E. Femandez, F. J. Gil, S. M. Best, M. P. Ginebra, F. C. M. Driessens, J. A. Planell “Improvement of the Mechanical Properties of New Calcium Phosphate Bone Cement in the CaHP04-a-Ca3(P04)2 System: Compressive Strength and Microstructural Development”. J. Biomed. Mater. Res. (Appl. ), 41, (1998), 560-567.
R. Soc. Lond. Ashby, Cellular solids: structure and properties. 2nded. Weinkamer,Nature's hierarchical materials. Prog. Mater. Sci. Fratz1, Cell-wall recovery after irreversible deformation of wood. Nature Mater. D. Curry, The design of mineralized hard tissues for their mechanical functions. J Exp. Biol. 202,3285-94 (1999). "G. Meyer, Rigid biological systems as models for synthetic composites. Science 310, 1144-7 (2005) I3C. G. Guille, Biomimetism and bioinspiration as tools for the design of innovative materials and systems.