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Multifunctional Nanotechnology

Felton EJ, Reich DH (2007) Biological applications of multifunctional magnetic nanowires. In Labhasetwa V, Leslie-Pelecky DL (eds) Biomedical applications of nanotechnology. Wiley, Hoboken, pp 1-22 doi 10.1002/9780470152928 chi... [Pg.272]

Acknowledgements This work has been supported by CICYT (BI02000-0351-P4-05, AGL2001-5005-E) and by the EC nanotechnology and nanosciences, knowledge-based multifunctional materials, new production processes and devices (contract number NMP-505485-1). [Pg.170]

Qiu J, Zhang C, Wang B, Liang R. Carbon nanotube integrated multifunctional multiscale composites. Nanotechnology. 2007 Jul 11 18(27). [Pg.251]

Lux F, Lerouge F, Bosson J, Lemercier G, Andraud C, Vitrant G, Baldeck PL, Chassagneux F, Parola S (2009) Gold hollow spheres obtained using an innovative emulsion process towards multifunctional Au nanoshells. Nanotechnology 20 355603-355609... [Pg.72]

Decontaminating Precoat Hybrid, multifunctional technology (e.g., merge of bio/nanotechnology)... [Pg.74]

Nanotechnology has improved the technical properties of fibres in textiles and coatings in such areas as electrical conductivity, magnetic susceptibility, interaction with light, photonics, chemical protection, friction control, abrasion resistance, waste water and oil repellence, soil release and biocompatibility. Tailoring and controlling structures on the nano-scale level is a key factor in the development of advanced materials or structural components in multifunctional applications. Some finishing processes in... [Pg.41]

Gunes, I.S. and Jana, S.C. (2008) Shape memory polymers and their nanocomposites a review of science and technology of new multifunctional materials. Journal of Nanoscience and Nanotechnology, 8, 1616-1637. [Pg.105]

A natural offshoot of the nanotechnology connection articulated in Section 2.1 is the capability of the FRRPP process in generating nanoscale polymers. It has been mentioned in the literature that size scale of nanoparticles for medical applications have been at least 10 nm in size. Based on the results indicated in Section 2.1, FRRPP-based nanoparticles can go down to 1 nm thus, these materials can easily find uses in medical applications, especially if they are the multifunctional type. Still, the author will classify this type of nanoparticle morphology as homogeneous. They could be made up of homopolymers, statistical copolymers, and even block copolymers with surface functionalities for attaching or binding with various bioactive agents. [Pg.295]

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See also in sourсe #XX -- [ Pg.96 , Pg.127 ]



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