Nanofibres morphology

In addition to the fabrication of porous polymers, TIPS can be used in order to produce scaffolds with a nanofibrous morphology, with fibre diameters generally ranging from 50 nm to 500 nm with porosities up to Such nanofibrous architectures are believed to more closely mimic the native ECM environment. Combining phase separation with the addition of a porogen, such as paraffin spheres, yields macroporous... 

Saita et al. [80] applied hydriding chemical vapor deposition (HCVD) for preparing MgH. They used commercial Mg, which was heated to 600°C and vaporized in a hydrogen atmosphere at a pressure of 4 MPa. The reaction product was deposited on a cooled Inconel substrate and subsequently collected for further investigation. Quite remarkably, the obtained morphology was nanofibrous, as shown in Fig. 2.47, and is very similar to the one fabricated by Zlotea et al. [79]. Each fiber was less than 1 jm in diameter and 10 or more micrometers in length. 

Thomas V et al (2006) Mechano-morphological studies of aligned nanofibrous scaffolds of polycaprolactone fabricated by electrospinning. J Biomater Sci Polym Ed 17(9) 969—984... 

Nanofibrous composite Morphology, mechanical Isolated fibroblast dermal cells Fibroblasts were attached on all the The electrospun Duan et al. 

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