Ill-V semiconductors like GaAs can be wet-chemically etched by three mechanisms: electrochemically with an external voltage source, electrochemically using an oxidizing agent (elec troless), and chemically with a reactive compound. In some cases the etching process only proceeds when the semiconductor is exposed to light. The etch rate depends on the relative reaction rate at the semiconductor surface and the mass transfer in the solution. Other important factors are the effect of the crystal planes, the orientation of a mask with respect to these planes, and the electrical contact with other materials. Wet-chemical etching of Ill-V semi conductors can be used on a large scale for various applications, including the detection of crystallogr...
This article was published in the Summer 2008 issue of the Journal of Undergraduate Researc
This article was published in the Summer 2008 issue of the Journal of Undergraduate Researc
Metal electrodes were found to influence the wet selective etching of GaAs in a citric acid/hydrogen...
Ill-V semiconductors like GaAs can be wet-chemically etched by three mechanisms: electrochemically w...
Ill-V semiconductors like GaAs can be wet-chemically etched by three mechanisms: electrochemically w...
Ill-V semiconductors like GaAs can be wet-chemically etched by three mechanisms: electrochemically w...
Ill-V semiconductors like GaAs can be wet-chemically etched by three mechanisms: electrochemically w...
Ill-V semiconductors like GaAs can be wet-chemically etched by three mechanisms: electrochemically w...
A new room temperature wet chemical digital etching technique for GaAs is presented which uses hydro...
A new room temperature wet chemical digital etching technique for GaAs is presented which uses hydro...
A new room temperature wet chemical digital etching technique for GaAs is presented which uses hydro...
A novel rotating-cell reactor was used to study natural-convection-enhanced tching of GaAs. The etch...
A new room temperature wet chemical digital etching technique for GaAs is presented which uses hydro...
A new HCI:CH3COOH:K2Cr207 system which is particularly suitable for use in etching solutions of GaAs...
Two methods of anodically etching n-GaAs have been investigated. Sub-sequently they have been used t...
This article was published in the Summer 2008 issue of the Journal of Undergraduate Researc
This article was published in the Summer 2008 issue of the Journal of Undergraduate Researc
Metal electrodes were found to influence the wet selective etching of GaAs in a citric acid/hydrogen...
Ill-V semiconductors like GaAs can be wet-chemically etched by three mechanisms: electrochemically w...
Ill-V semiconductors like GaAs can be wet-chemically etched by three mechanisms: electrochemically w...
Ill-V semiconductors like GaAs can be wet-chemically etched by three mechanisms: electrochemically w...
Ill-V semiconductors like GaAs can be wet-chemically etched by three mechanisms: electrochemically w...
Ill-V semiconductors like GaAs can be wet-chemically etched by three mechanisms: electrochemically w...
A new room temperature wet chemical digital etching technique for GaAs is presented which uses hydro...
A new room temperature wet chemical digital etching technique for GaAs is presented which uses hydro...
A new room temperature wet chemical digital etching technique for GaAs is presented which uses hydro...
A novel rotating-cell reactor was used to study natural-convection-enhanced tching of GaAs. The etch...
A new room temperature wet chemical digital etching technique for GaAs is presented which uses hydro...
A new HCI:CH3COOH:K2Cr207 system which is particularly suitable for use in etching solutions of GaAs...
Two methods of anodically etching n-GaAs have been investigated. Sub-sequently they have been used t...
This article was published in the Summer 2008 issue of the Journal of Undergraduate Researc
This article was published in the Summer 2008 issue of the Journal of Undergraduate Researc
Metal electrodes were found to influence the wet selective etching of GaAs in a citric acid/hydrogen...