Stem‐Cell Nanoengineering 2015 Help me understand this report
Nanopatterned Surfaces for Stem‐Cell Engineering
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“…It has been demonstrated that cellular differentiation can primarily be affected by changes in the geometry, dimensions and orientation of the nanopatterns (4). Several technologies were reported in the literature to create such nanopatterns, such as Dip-pen nanolithography, nanografting, polymer phase separation, metal anodization, capillary molding, preparation of nanofibrous scaffolds, and three dimensional chips (4,5).…”
Section: Nanopatterning: Implications In Regenerative Medicinementioning
confidence: 99%
“…It has been demonstrated that cellular differentiation can primarily be affected by changes in the geometry, dimensions and orientation of the nanopatterns (4). Several technologies were reported in the literature to create such nanopatterns, such as Dip-pen nanolithography, nanografting, polymer phase separation, metal anodization, capillary molding, preparation of nanofibrous scaffolds, and three dimensional chips (4,5).…”
Section: Nanopatterning: Implications In Regenerative Medicinementioning
confidence: 99%
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