Synthesis of porous Si particles by metal-assisted chemical etching for li-ion battery application
Journal
Journal of the Chinese Chemical Society
Journal Volume
59
Journal Issue
10
Pages
1226-1232
Date Issued
2012
Author(s)
Abstract
As an anode for Li-ion batteries, Si has a high theoretical capacity but suffers from dramatic volume variations during cycles of lithiation/de- lithiation (L/D). Attempt is made to increase cycle stability of Si electrode by incorporating "pre-set" voids into the electrode matrix to partially accommodate volume expansion. A metal-assisted chemical etching (MACE) method, in which Si is partially etched in the solution containing AgNO 3 and HF, has been evaluated for synthesize porous Si particles. It has been found that the particle porosity exhibits complex dependence on etching time, oxidant concentration and temperature. Porous Si particles containing predominantly mesopores have been produced by the MACE method, but the maximumporosity has been limited to be ca. 25%. The resulting porous Si is subsequently coated with a C layer and subjected to cycles of electrochemical L/D. The C-coated porous Si electrode exhibits high capacity and remarkably improved cycle stability as compared with non-porous Si electrode. ? 2012 The Chemical Society Located in Taipei & Wiley-VCH Verlag GmbH & Co. KGaA,Weinheim.
Subjects
Li-ion batteries
Metal-assisted chemical etching
Porous structure
Silicon
Type
journal article