SBIR-STTR Award

Self-Assembled Monolayer Based Methods for Fabrication of Diffractive Optical Elements
Award last edited on: 4/9/2002

Sponsored Program
SBIR
Awarding Agency
DOD : Navy
Total Award Amount
$518,936
Award Phase
2
Solicitation Topic Code
N97-111
Principal Investigator
Eric Johnson

Company Information

Digital Optics Corporation

9815 David Taylor Drive
Charlotte, NC 28262
   (704) 887-3100
   doc@doc.com
   www.doc.com
Location: Single
Congr. District: 12
County: Mecklenburg

Phase I

Contract Number: N00014-98-C-0039
Start Date: 11/17/1997    Completed: 5/17/1998
Phase I year
1998
Phase I Amount
$69,027
This SBIR Phase I project builds upon Digital Optics Corporation's experience in the design, fabrication and commercialization of diffractive and micro-optics and the experience of Dr. George Whitesides of Harvard University to provide an innovative approach to the fabrication of diffractive and micro-optical components using self-assembled monolayers (SAM's). The proposed approach makes use of SAM's for the inexpensive fabrication of submicron diffractive structures on both flat and curved surfaces. Many exciting and useful micro-optical elements exist that cannot be efficiently manufactured in production quantities with conventional methods, if they can be fabricated at all. The use of SAM-based methods will provide additional opportunities for cost-efficient fabrication of both existing and new types of micro-optics. This Phase I effort will demonstrate the application of SAM's to the fabrication of micro-optical elements. Both analytical and experimental work will be performed to verify the objectives of the proposed project.

Phase II

Contract Number: N00014-98-C-0374
Start Date: 9/29/1998    Completed: 9/29/2000
Phase II year
1998
Phase II Amount
$449,909
This SBIR Phase II project builds upon Digital Optics Corporation's experience in the design, fabrication and commercialization of diffractive and micro-optics and the experience of university researchers to provide an innovative approach to the fabrication of diffractive and micro-optical components using self-assembled monolayers (SAM's). The proposed approach makes use of SAM's for the inexpensive fabrication of diffractive structures . Many exciting and useful micro-optical elements exist that cannot be efficiently manufactured in production quantities with conventional techniques, if they can be fabricated at all. The use of SAM-based methods will provide additional opportunities for cost-efficient fabrication of both existing and new types of micro-optics. This Phase II effort will demonstrate the application of SAM's to the fabrication of micro-optical elements. Both analytical and experimental work will be performed to verify the objectives of the proposed project.