Optoelectronic performance of Indium Tin Oxide Thin Films structured by Sub-Picosecond Direct Laser Interference Patterning

Abstract: A route to increase the efficiency of thin film solar cells is improving the light-trapping capacity by texturing the top Transparent Conductive Oxide (TCO) so that the sunlight reaching the solar absorber scatters into multiple directions. In this study, Indium Tin Oxide (ITO) thin films are treated by infrared sub-picosecond Direct Laser Interference Patterning (DLIP) to modify the surface topography. Surface analysis by scanning electron microscopy and confocal microscopy reveals the presence of periodic mi… Show more

“…Beam-shaped interference configurations: other configurations for DLIP that have been developed include the use of beam shaping elements, e.g., to obtain elongated laser sub-beams that are later overlapped and thus produce interference patterns. One developed configuration has been conceived for high-power laser applications and uses a prism or DOE for beam splitting, a set of cylindrical lenses to expand the laser beam in one direction and the other optics for overlapping the produced sub-beams [20]. This setup, in general, has a deep focus of a few hundred micrometers.…”

The development of direct laser interference patterning: past, present, and new challenges

“…Beam-shaped interference configurations: other configurations for DLIP that have been developed include the use of beam shaping elements, e.g., to obtain elongated laser sub-beams that are later overlapped and thus produce interference patterns. One developed configuration has been conceived for high-power laser applications and uses a prism or DOE for beam splitting, a set of cylindrical lenses to expand the laser beam in one direction and the other optics for overlapping the produced sub-beams [20]. This setup, in general, has a deep focus of a few hundred micrometers.…”

The development of direct laser interference patterning: past, present, and new challenges