Gold- and Silver-Nanoparticle-Assisted Etching of p-Si and n-Si: A Discussion of Etching Behavior Based on Polarization Curves

Gold- and Silver-Nanoparticle-Assisted Etching of p-Si and n-Si: A Discussion of Etching Behavior Based on Polarization Curves

Metal-assisted etching (metal-assisted chemical etching) is increasingly recognized as a crucial method for fabricating silicon (Si) nanostructures. This process involves the dissolution of Si both directly beneath metal catalysts (local etching) and at locations away from them (remote etching). We...

Full description

Saved in:
Bibliographic Details
Main Authors: Ayumu MATSUMOTO, Tatsuki HASHIGUCHI, Shinji YAE
Format: Article
Language:English
Published: The Electrochemical Society of Japan 2025-02-01
Series:Electrochemistry
Subjects:
metal-assisted chemical etching
porous silicon
wet etching
displacement deposition
Online Access:https://www.jstage.jst.go.jp/article/electrochemistry/93/2/93_24-00134/_html/-char/en
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Metal-assisted etching (metal-assisted chemical etching) is increasingly recognized as a crucial method for fabricating silicon (Si) nanostructures. This process involves the dissolution of Si both directly beneath metal catalysts (local etching) and at locations away from them (remote etching). We previously investigated general corrosion, a kind of remote etching, in metal-particle-assisted etching of moderately-doped n-Si and explained its mechanism in platinum-assisted etching where a sponge-like porous layer was observable on the top surface of Si, which dissolves spontaneously. However, general corrosion caused by gold (Au)-assisted etching has not been explained yet, as the soluble layer was not clearly observed. It is also difficult to explain why general corrosion was suppressed in silver (Ag)-assisted etching under the conditions we examined. In this work, we estimated the depth of general corrosion caused by Au- and Ag-nanoparticle-assisted etching of moderately-doped p-Si and n-Si based on the etched structures and mass loss of substrate. We also discussed etching behavior based on polarization curves of bare Si, metal-deposited Si, and metal wires. This work provides insights into the underlying mechanism of remote etching and proposes a potential strategy to mitigate it.
ISSN:2186-2451

Similar Items