Surface characterization and assessment of cell attachment capabilities of thin films fabricated by ion-beam irradiation of poly(l-lactic acid) substrates

▸ Thin films can be obtained by ion-beam irradiation of poly(l-lactic acid). ▸ Both surfaces of the thin film were carbonized by the irradiation. ▸ No significant changes were noticed in the topographies of the two surfaces. ▸ Fibroblasts attached firmly to the bottom as well as the top surface of the film. The ion-beam irradiation of substrates of poly(l-lactic acid) (PLLA), a biodegradable polymer, gave rise to exfoliatable thin films when the substrate was immersed in an aqueous solution. The thin films exhibited excellent cell affinity, and hence, can be useful in bioengineering applications. In this study, we characterized both surfaces of the thin films and evaluated their cell attachment capabilities. Each surface was analyzed by X-ray photoelectron spectroscopy (XPS) and dynamic force microscopy (DFM). These analyses showed that carbonization took place at both surfaces. In addition, no significant changes were noticed in the topographies of the two surfaces. Finally, the cell attachment capabilities of the surfaces were determined by culturing mouse fibroblasts on them. The cells attached firmly to the bottom as well as the top surface of the film and were well spread out. These results could be attributed to the carbonization of the surfaces of the thin-film. Such thin films, fabricated by the irradiation of a biodegradable polymer, are expected to find wide application in areas such as tissue regeneration and cell transplantation.