SILICON-ON-INSULATOR

Award Information

Agency: National Science Foundation

Branch: N/A

Contract: N/A

Agency Tracking Number: 2699

Amount: $40,000.00

Phase: Phase I

Program: SBIR

Solicitation Topic Code: N/A

Solicitation Number: N/A

Timeline

Solicitation Year: N/A

Award Year: 1985

Award Start Date (Proposal Award Date): N/A

Award End Date (Contract End Date): N/A

Small Business Information

Spire Corporation

Patriots Pk

Bedford, MA 01730

United States

DUNS: N/A

HUBZone Owned: No

Woman Owned: No

Socially and Economically Disadvantaged: No

Principal Investigator

Name: S N BUNKER
Title: SENIOR SCIENTIST
Phone: (617) 275-6000

Business Contact

Phone: () -

Research Institution

N/A

Abstract

SILCON-ON-INSULATOR TECHNOLOGIES SUCH AS SILICON-ON-SAPPHIRE(SOS) HAVE BEEN SHOWN TO BE ESSENTIAL FOR PROVIDING ISOLATION OF TRANSISTORS FROM SUBSTRATES FOR INCREASED OPERATING SPEED. A PROMISING NEW APPROACH, SEPARATION BY ION IMPLANTATION OXYGEN (SIMOX), HAS ALREADY DEMONSTRATED HIGH QUALITY CIRCUITS WITHOUT THE SILICON DEFECTS OFTEN FOUND IN SOS. HOWEVER, THE LOW THROUGHPUT, HIGH COST, AND COMPLEXITY OF LARGE ION IMPLANTERS NEEDED FOR COMMERCIAL EXPLOITATION OF THE TECHNOLOGY IS A MAJOR OBSTACLE. (1) IT IS PROPOSED TO DEMONSTRATE A MORE EFFICIENT METHOD TO PRODUCE SIMOX WAFERS THAT IS CAPABLE OF BEING APPLIED TO EXISTING, LOW COST ION IMPLANTERS. THE TECHNIQUE IS TO IMPLANT AT FULL AREA, UNIFORM WAFER TEMPERATURES UP TO 1100 DEGREES C, WHICH PERMITS 8 TIMES HIGHER DOSE RATES THANPRESENTLY OBTAINABLE. ALL DEMONSTRATION SAMPLES WILL BE PRODUCED IN SPIRE'S EXISTING OXYGEN IMPLANT FACILITY. DEPENDENT ON SUCCESSFUL DEMONSTRATION OF ADEQUATE DEFECT DENSITY, EPITAXIALLY GROWN LAYERS, A SECOND PROJECT PHASE WILL BE TO OPTIMIZE THE PROCESS PARAMETERS AND SUPPLY EVACUATION SAMPLES TO COMMERCIAL AND GOVERNMENT USERS FOR THIS HIGH PERFORMANCE PRODUCT.

* Information listed above is at the time of submission. *

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SILICON-ON-INSULATOR