Polymer nanofibres

N. L., Ramakrisna, S. (2006). Functionalized polymer nanofibre membranes for protection Irom chemical warfare stimulants. Nanotechnology 17 2947-53. [Pg.1064]

Methods of Fabricating Aligned Polymer Nanofibrous Structures. 174... [Pg.172]

Beachley V, Wen X (2010) Polymer nanofibrous structures fabrication, biofunctionalization, and cell interactions. Prog Polym Sci 35(7) 868-892... [Pg.204]

The future trend of nanofibre development may include modification toward functionalisation of polymer nanofibres intended to improve their performance and function in biomedical applications. This purpose is achieved by incorporating such therapeutic agents as antibacterial agents and growth factors into the nanofibrous structures, so that the product will duly become capable of infection control, with improved biocompatibility and promotion of cell proliferation and differentiation. [Pg.66]

Huang, J.X., and R.B. Kaner. 2004. Flash welding of conducting polymer nanofibres. Nat Mater 3... [Pg.257]

The fibrillar structure of collagen is important for cell attachment, proliferation and differentiation function, and mimicking its structure may lead to engineered tissue which more closely resembles native tissues. Polymer nanofibres are an important class of nanomaterials which have been focused for the past ten years on the field of tissue engineering. Nanostructured materials are extremly small in size, falling... [Pg.47]

Electrospun polymer nanofibres with the lowest fibre diameter were obtained at tbe highest electrical conductivity, so the drop in fibre size may be possibly explained by... [Pg.86]

The third volume of Advances in Nanofibre Research describes tbe many directions in which the science and technology of polymer nanofibres is now evolving and highlights the current understanding of polymer nanofibres and nanocomposites. In this volume, readers can find chapters which compare the occurrence, stability, and functional properties of fibrous nanomaterials of different sizes and shapes. [Pg.124]

Kim, B.C., Nair, S., Kim, J. et al. 2005a. Preparation of biocatalytic nanofibres with high activity and stability via enzyme aggregate coating on polymer nanofibres,... [Pg.251]

Kandasubramanian, B. and Govindaraj, P. (2014) Peeling model for cell adhesion on electrospun polymer nanofibres. /. Adhes. Sci. Technol, 28 (2), 171-185. [Pg.188]

Deniz AE, Vural HA, Oitac B, Uyar T (2011) Gold nanoparticle/polymer nanofibrous composites by laser ablation and electrospinning. Mat Lett 65 2941-2943... [Pg.137]

Bini T B, Gao S, Tan T C, Wang S, Lim A, Hai L B and Ramakrishna S (2004) Electrospun poly(L-lactide-co-glycolide) biodegradable polymer nanofibre tubes for peripheral nerve regeneration, Nanotechnology 15 1459-1464. [Pg.344]

Zhang Y, Lim CT, Ramakrishna S, Huang ZM (2005) Recent development of polymer nanofibres for biomedical and biotechnological applications. J Mater Sci Mater M 16 933-946... [Pg.27]

Dosunmu, O. O., G. G. Chase, W. Kataphinan, and D. H. Reneker (2006). Electrospinning of polymer nanofibres from multiple jets on a porous tubular surface. Nanotechnology 17(4) 1123-1127. [Pg.338]

Kannan, R, S. J. Eichhom, and R. J. Young (2007). Deformation of isolated singlewall carbon nanotubes in electrospun polymer nanofibres. Nanotechnology 18(23) 235707. [Pg.350]

Huang ZM, Zhang YZ, Kotaki M, Ramakrishna S (2003) A review on polymer nanofibres by electrospinning and their applications in nanocomposites. Compos Sd Technol 63 2223-2253... [Pg.176]

It is very interesting to observe that when the side-by-side bicomponent nanofibres are electrospun from an elastomeric polymer and a thermal plastic, the as-spun nanofibres have curly or helically crimped fibre morphologies (Fig. 5.14a). The diameter of the helix can be as small as 500nm. Therefore, the side-by-side co-electrospinning process could be an effective route for the production of helical or crimped polymer nanofibres. [Pg.107]

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