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OPTICOMP NETWORKS, INC.
UEI: WX9VTJQ8JLR4
# of Employees: 1
HUBZone Owned: No
Socially and Economically Disadvantaged: No
Woman Owned: No
Award Charts
Award Listing
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Rapid Wafering of Wide Bandgap Substrates
Amount: $155,000.00OptiCOMP is developing a non-abrasive wafering technique that will reduce the cost of manufacturing wide bandgap semiconductor silicon carbide (SiC) and diamond substrates by a factor of two. These ma ...
SBIRPhase I2022Department of Defense Missile Defense Agency -
Rapid Wafering of Wide Bandgap Substrates
Amount: $25,000.00OptiCOMP has a non-abrasive wafering technique that will reduce the cost of manufacturing wide bandgap semiconductor substrates, i.e. silicon carbide (SiC), gallium nitride (GaN), AlN and diamond by u ...
STTRPhase I2020Department of Defense Air Force -
Rapid thinning of GaN and SiC substrates for epi-ready and power devices by layer lift-off
Amount: $155,000.00Wide bandgap materials, such as Gallium Nitride GaN) and Silicon Carbide SiC) are very promising for light-emitting diodes LEDs) and power electronics. These materials are extremely hard and difficult ...
SBIRPhase I2015Department of Energy -
SBIR Phase I: Dry Epitaxial Lift-off for High Efficiency Solar Cells
Amount: $150,000.00This Small Business Innovation Research Phase I project develops a method of lifting-off an epitaxially grown high-efficiency (>30%) triple-junction III-V solar cell from a Ge or GaAs wafer onto a pol ...
SBIRPhase I2012National Science Foundation -
Dry Epitaxial Lift-Off for High Efficiency Solar Cells
Amount: $100,000.00A new method of transferring epitaxially grown active films onto an inexpensive polymeric flexible carrier. Specifically, for making thin lightweight high efficiency (> 30%) IMM3J solar cells while re ...
SBIRPhase I2011National Aeronautics and Space Administration -
Foldable/Rollable High Efficiency Solar Cell Modules
Amount: $100,000.00ABSTRACT: A new method for manufacturing thin, flexible, portable high efficiency III-V PV modules that can be folded and rolled. In particular, IMM3J cells are lifted-off their growth substrate and ...
STTRPhase I2011Department of Defense Air Force -
Polyimide substrate for thin multijunction solar cell
Amount: $100,000.00This SBIR project concerns the fabrication of thin high efficiency multijunction solar cells starting from lattice mismatched GaInP/GaInAs/Ge cells that are grown epitaxially inverted on germanium waf ...
SBIRPhase I2009Department of Defense Air Force