Size‐controllable fabrication of nano‐to‐microstructures on silicon surface using high‐density ion etching with pulsed bias

Abstract: A 'black silicon' (BS) surface with low reflectance was fabricated by a standard pulsed deep reactive etching technology at room temperature. Aiming for a better understanding, a systematic experiment was conducted by varying the etching window size and bias power duty cycle. The samples were measured and analysed by a scanning electron microscope, the Bruker Optical Profiler and a UV-3400 spectrometer. It was observed that a broad scale range of the surface structures formed on the surface. With the duty cycl… Show more

“…A low-reective "black silicon" surface was produced by a pulsed deep reactive etching technology at r.t., varying the bias power duty cycle and etching window size. 92 At a 0.25 duty cycle, the height of the Si forest was found to be to about 10 mm and had 0.9% reectance. Also, nanopillar-forests (heights of several microns, density 20 mm À2 , and tip diameters 5-10 nm) with numerous nanoscale gaps were fabricated on the basis of the advantage of convex areas on poly-Si surfaces to act as support structures in side-wall technology.…”

State of the art of nanoforest structures and their applications

“…A low-reective "black silicon" surface was produced by a pulsed deep reactive etching technology at r.t., varying the bias power duty cycle and etching window size. 92 At a 0.25 duty cycle, the height of the Si forest was found to be to about 10 mm and had 0.9% reectance. Also, nanopillar-forests (heights of several microns, density 20 mm À2 , and tip diameters 5-10 nm) with numerous nanoscale gaps were fabricated on the basis of the advantage of convex areas on poly-Si surfaces to act as support structures in side-wall technology.…”

State of the art of nanoforest structures and their applications