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Bioinspired nanocomposites

Liu H, Webster TJ. Bioinspired nanocomposites for orthopedic applications. In Webster TJ, editor. Nanotechnology for the regeneration of hard and soft tissues. Singapore World Scientific Publishing 2007. p. 1-51. [Pg.95]

Liu, H., Webster, T.J., 2007a. Bioinspired nanocomposites for orthopedic applications. In Nanotechnology for the Regeneration of Hard and Soft Tissues. World Scientific Publishing Company, Toh Tuck Link, Singapore. [Pg.255]

Yusufoglu, Y. Hu, Y. Kanapathipillai, M. Kramer, M. Kalay, Y. E. Thiyagarajan, P. Akinc, M. Schmidt-Rohr, K. Mallapragada, S., Bioinspired synthesis of self-assembled calcium phosphate nanocomposites using block copolymer-peptide conjugates. Journal of Materials Research 2008, 23, (12), 3196-3212. [Pg.321]

It is important to emphasize that many natural tissues are essentially composed of nanoscale biopolymers or biocomposites with hierarchical architectures. Therefore, by mimicking the structure and property of their natural counterparts, synthetic nanopoiymers and nanocomposites are very likely to enhance/regulate the functions of specific cells or tissues. This principle has been demonstrated by the success of bioinspired polymers and composites in both clinical practice and in laboratory research. In particular, bone is the hierarchical tissue that has inspired a myriad of biomimetic materials, devices, and systems for decades. This chapter focuses on this well-developed area of biomimetic or bioinspired nanopoiymers and nanocomposites for bone substitution and regeneration, especially those with high potentials for clinical applications in the near future. [Pg.77]

Thakur VK, Yan J, Lin MF, Zhi C, Golberg D, Bando Y, Sim R, Lee PS. Novel polymer nanocomposites from bioinspired green aqueous functionalization of BNNTs. Polym Chem 2012 3 962-969. [Pg.17]

J. Mendez, P. K. Annamalai, S. J. Eichhorn, R. Rush, S. J. Rowan, J. E. Foster, and C. Weder, Bioinspired Mechanically Adaptive Polymer Nanocomposites with Water-Activated Shape-Memory Effect. Macromolecules 44, 6827-6835 (2001). [Pg.88]

Fox, j. D., Capadona, J. R, Marasco, P. D., and Rowan, S. J. (2013]. Bioinspired water-enhanced mechanical gradient nanocomposite films that mimic the architecture and properties of the squid beak, /. Am. Chem. Soc, 135,5167-5174. [Pg.889]


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See also in sourсe #XX -- [ Pg.77 , Pg.78 , Pg.79 , Pg.80 , Pg.81 , Pg.82 , Pg.88 , Pg.89 , Pg.90 , Pg.91 ]




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