Digital wet etching of semiconductor materials

Assignee

• United States of America as represented by the Secretary of the Air Force · US

Inventors

• Christopher A. Bozada · Beavercreek, US
• Gregory C. DeSalvo · Beavercreek, US
• John L. Ebel · Beavercreek, US
• Charles L. A. Cerny · Vandalia, US
• Ross W. Dettmer · Dayton, US
• James K. Gillespie · Cedarville, US
• Charles K. Havasy · Beavercreek, US
• Thomas J. Jenkins · Fairborn, US
• Kenichi Nakano · Fukuoka, JP
• Carl I. Pettiford · Beavercreek, US
• Tony K. Quach · Kettering, US
• James S. Sewell · Kettering, US
• G. David Via · Dayton, US

Key dates

Classification

• Technology area (CPC H)Electricity
• CPC primaryH01L21/30612
• WIPO fieldSemiconductors
• WIPO sectorElectrical engineering

Abstract

A room temperature wet chemical digital etching technique for, gallium arsenide or other semiconductor material. Hydrogen peroxide and an acid are used in a two step etching cycle to remove the gallium arsenide in approximately 15 .ANG. limited increments. In the first step of the cycle, gallium arsenide is oxidized by, for example, 30% hydrogen peroxide to form an oxide layer that is diffusion limited to a thickness of, for example, 14-17 .ANG. for time periods from 15 seconds to 120 seconds. The second step of the cycle removes this oxide layer with an acid that does not attack unoxidized gallium arsenide. These steps are repeated in succession using new reactant materials and cleaning after each reactant (to prevent reactant contamination) until the desired etch depth is obtained. Experimental results are presented demonstrating the etch rate and process invariability with respect to hydrogen peroxide and acid exposure times. A method for using a Hall effect measurement to determine the achieved change in surface layer thickness of doped semiconductor material is also included.