2017
DOI: 10.20431/2349-0403.0410004
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Physicochemical Characterization and Cell Adhesion Evaluation of Poly-ε-Caprolactone/BNNT Nanofibers Produced through Electrospinning Process

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“…The plasma treatment had changed the hydrophobic BNNT film in to a more hydrophilic surface, which was attributed to be the cause for the increased cell number on the film [81]. In another study, MRC-5 human lung fibroblast cells, exhibited good adhesion on PCL-BNNTs nanofibers that were comparable to the cell adhesion observed on pristine PCL nanofibers [82]. Though the mechanism contributing to the cell adhesion was not investigated in the study, it is likely to be influenced by the surface topography of the nanofibrous scaffold.…”
Section: Bnnts and Cell Adhesionmentioning
confidence: 97%
“…The plasma treatment had changed the hydrophobic BNNT film in to a more hydrophilic surface, which was attributed to be the cause for the increased cell number on the film [81]. In another study, MRC-5 human lung fibroblast cells, exhibited good adhesion on PCL-BNNTs nanofibers that were comparable to the cell adhesion observed on pristine PCL nanofibers [82]. Though the mechanism contributing to the cell adhesion was not investigated in the study, it is likely to be influenced by the surface topography of the nanofibrous scaffold.…”
Section: Bnnts and Cell Adhesionmentioning
confidence: 97%