Fayou Yu scite author profile

This presentation will introduce laser interference lithography to prepare a periodic line and point micropatterns for study of cell-surface interactions. This process provides a straightforward micropatterning technique based on selective laser ablation of polymers utilizing the periodic energy distribution of two or more beam interference patterns. The micropatterns were characterized by atomic force microscopy, while the surface chemical modification was analyzed using X-ray photoelectron spectroscopy. Human pulmonary fibroblasts cultured on the surface of polycarbonate bearing line micropatterns were elongated, spindlelike, and oriented themselves along the line patterns with all different groove widths. In contrast, cells cultured on point patterns were also bipolar but showed no orientation. Further investigations demonstrated that human pulmonary fibroblast cells cultured on line and point micropatterns showed inflammatory response.

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RIMAPS and variogram analysis of the surface topography induced by laser interference micropatterning

Favret

Fuentes

2004

Applied Surface Science

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Surface quality assessment using computer vision methods

Hoy

1991

Journal of Materials Processing Technology

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Fayou Yu

Laser interference lithography as a new and efficient technique for micropatterning of biopolymer surface

In Vitro Cell Response to a Polymer Surface Micropatterned by Laser Interference Lithography

RIMAPS and variogram analysis of the surface topography induced by laser interference micropatterning

Surface quality assessment using computer vision methods

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