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Nanofiber assembly

Lowik D, Shklyarevskiy 10, Ruizendaal L et al (2007) A highly ordered material from magnetically aligned peptide amphiphile nanofiber assemblies. Adv Mater 19 1191-1195... [Pg.165]

TABLE 14.1 Major Strategies for Peptide Nanofiber Assembly... [Pg.360]

A number of research groups have taken up this challenge and have developed rationally designed peptides adopting coiled coil structures that self-assemble into more complex nanostmctures. As a dominating and perhaps the most practical form of nanostructures, nanofiber assembly serves to illustrate the hierarchical molecular self-assembly possible in these systems. [Pg.362]

Frenot, A., Chronakis, I. S., Polymer Nanofibers Assembled by Electrsopinning, Current Opinion in Colloid and Interface Science 8, 64-75 (2003). [Pg.293]

A. Frenot and I. S. Chronakis, Polymer nanofibers assembled by electrospinning, Curr. Opin. Colloid Interface Set, 8, 64—75 (2003). [Pg.201]

Freier T (2006) Biopolyesters in tissue engineering applications. Adv Polym Sci 203 1-61 Frenot A, ChronaMs IS (2003) Polymer nanofibers assembled by electrospinning. Curr Opin Colloid Interface Sd 8 64-75... [Pg.109]

Figure 3 Structures of molecular graphenes 14-16 designed for nanofiber assembly. Figure 3 Structures of molecular graphenes 14-16 designed for nanofiber assembly.
Different kinds of porosity can be present and measured in polymer nanofiber samples. Porosity can be a bulk property of a sample, namely a collective feature of polymer nanofibers assembly, non-woven, etc., or an internal property of individual nanofibers, or a surface property of either nanofiber-based coatings or of single filaments. These features impact on many properties of nanomaterials, ranging from fluid diffusion into and out of non-wovens or single nanofibers, to wettability, ability of drug delivery, of effectively exchanging bio-chemical signals, and so on. [Pg.211]

Figure 7.19. Schematics of nanofiber collecting systems for forming different nanofiber assembly structures (A) rotating drum for continuous nanofiber filament and aligned nano-fiber sheet (B) parallel electrodes for aligned nanofiber array (C) counter-electrodes for cross-bar nanofiber array (D) blades for nanofiber yam (E) parallel rings for twisted nano-fiber yam and (F) hquid bath for continuous nanofiber yam. Figure 7.19. Schematics of nanofiber collecting systems for forming different nanofiber assembly structures (A) rotating drum for continuous nanofiber filament and aligned nano-fiber sheet (B) parallel electrodes for aligned nanofiber array (C) counter-electrodes for cross-bar nanofiber array (D) blades for nanofiber yam (E) parallel rings for twisted nano-fiber yam and (F) hquid bath for continuous nanofiber yam.
Badrossamay MR, Mcllwee HA, Goss JA, Parker KK (2010) Nanofiber assembly by rotary jet-spinning. Nano Lett 10(6) 2257-2261. doi 10.1021/nll01355x... [Pg.340]

See other pages where Nanofiber assembly is mentioned: [Pg.153]    [Pg.176]    [Pg.176]    [Pg.204]    [Pg.164]    [Pg.180]    [Pg.217]    [Pg.246]    [Pg.273]    [Pg.325]    [Pg.22]    [Pg.148]    [Pg.161]    [Pg.211]    [Pg.213]    [Pg.368]    [Pg.36]    [Pg.87]    [Pg.149]    [Pg.106]    [Pg.245]    [Pg.54]    [Pg.679]   


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