S. D. Gall, R. Lachaume, E. Torralba, M. Halbwax, V. Magnin, T. E. Assimi, Marin Fouchier, J. Harari, J. Vilcot, C. Cachet-Vivier, S. Bastide
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引用次数: 0
Abstract
New Si processes based on Metal Assisted Chemical Etching (MACE) are explored for solar cells texturization. Pt and Au are considered as catalysts for MACE of p and n-type Si substrates. 2D band bending modeling at the nanoscale shows that Pt nanoparticles (NPs) make ohmic contacts and induce delocalized etching. Accordingly, cone-shaped macropores, very efficient in reducing the reflectivity $(< 5\%)$ are obtained experimentally. On the contrary, Au with n-type Si leads to non-ohmic contacts and localized etching. On this basis, a novel strategy for 3D pattern transfer into Si with patterned nanoporous gold electrodes in a single step is developed.
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