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Cozzi C., Polito G., Kolasinski K.W., Barillaro G. Controlled Microfabrication of High Aspect Ratio Structures in Silicon at the Highest Etching Rates: The Role of H2O2 in the Anodic Dissolution of Silicon in Acidic Electrolytes.

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Advanced Functional Materials, 2017, 27, 1604310

Abstract

In this work the authors report on the controlled electrochemical etching of high-aspect-ratio (from 5 to 100) structures in silicon at the highest etching
rates (from 3 to 10 μm min1) at room temperature. This allows silicon microfabrication entering a previously unattainable region where etching of highaspect-
ratio structures (beyond 10) at high etching rate (over 3 μm min−1) was prohibited for both commercial and research technologies. Addition of an
oxidant, namely H2O2, to a standard aqueous hydrofluoric (HF) acid electrolyte is used to dramatically change the stoichiometry of the silicon dissolution
process under anodic biasing without loss of etching control accuracy at the higher depths (up to 200 μm). The authors show that the presence of H2O2
reduces the valence of the dissolution process to 1, thus rendering the electrochemical etching more effective, and catalyzes the etching rate by opening
a more efficient path for silicon dissolution with respect to the well-known Gerischer mechanism, thus increasing the etching speed at both shorter and
higher depths.