Laser fabrication of micropores and their integration to microfluidic platforms for DNA electrophoresis

Abstract: The work presents an alternative method for the manufacture of micropores by using the combination of laser ablation and wet etching. The process of laser ablation was done on silicon (Si) wafers with silicon nitride (Si 3 N 4 ) used as a sacrificial layer. The size of the pores was carefully controlled by following an optical technique. The method exhibits a series of advantages in relation micromachining techniques previously used. The fabricated pores were then integrated to polydimethylsiloxane (PDMS) micr… Show more

“…Finally the sample was peeled off. Microchannels (200 ± 5) lm thick and (25 ± 0.5) lm in height were obtained, as verified by scanning electron microscopy and profilometry (Lerner et al 2012).…”

A circular microchannel with integrated electrodes for DNA electrophoresis

“…Finally the sample was peeled off. Microchannels (200 ± 5) lm thick and (25 ± 0.5) lm in height were obtained, as verified by scanning electron microscopy and profilometry (Lerner et al 2012).…”

A circular microchannel with integrated electrodes for DNA electrophoresis