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MICROLINK DEVICES INC
UEI: DHJPU2QYVQK7
# of Employees: 42
HUBZone Owned: No
Socially and Economically Disadvantaged: No
Woman Owned: No
Award Charts
Award Listing
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High-Power Vertical-Junction Field-Effect Transistors Fabricated on Low-Dislocation-Density GaN by Epitaxial Lift-Off
Amount: $1,500,000.00"In this program, we will develop a breakthrough technology that will enable wafer-scale epitaxial lift-off (ELO) of GaN power device heterostructures from low-dislocation-density bulk GaN substrates. ...
SBIRPhase II2013Department of Energy ARPA-E -
Advanced Epitaxial Lift-Off Quantum Dot Photovoltaic Devices
Amount: $125,000.00We propose to develop a high-efficiency, triple-junction, epitaxial lift-off (ELO) solar cell by incorporating quantum dots (QDs) within the current-limiting subcell. We intend to leverage existing Q ...
STTRPhase I2012National Aeronautics and Space Administration -
High Efficiency Flexible Photovoltaic Blankets
Amount: $750,000.00ABSTRACT: MicroLink will develop a high-efficiency, flexible photovoltaic blanket, which will reduce solider borne weight by reducing battery requirements. The photovoltaic blanket will combine ultr ...
STTRPhase II2012Department of Defense Air Force -
Lightweight, Flexible Photovoltaic Module
Amount: $125,000.00With recent advances in MicroLink's inverted metamorphic (IMM) multijunction epitaxial lift off (ELO) solar cells, new opportunities for solar cell packaging are possible that leverage the inhere ...
SBIRPhase I2012National Aeronautics and Space Administration -
High-Volume Production of Lightweight, Multi-Junction Solar Cells Using 6-inch GaAs
Amount: $125,000.00Very large solar arrays to power future solar electric propulsion systems will require a new generation of solar cells that are not only high efficiency, but also light weight and significantly lower ...
SBIRPhase I2012National Aeronautics and Space Administration -
Ultra-High-Efficiency, Multi-Junction Solar Cells for Space Applications
Amount: $150,000.00ABSTRACT: The innovation in this proposed Phase I SBIR program is the development of a new type of top subcell for a novel, all-lattice-matched multijunction solar cell. The proposed structure will ...
SBIRPhase I2012Department of Defense Air Force -
SBIR Phase I: Low-Cost, Nanoepitaxial Lateral Over-Growth for III-V Metamorphic Solar Cells
Amount: $150,000.00This Small Business Innovation Research (SBIR) Phase I project aims to substantially reduce the cost of multijunction solar cells for terrestrial concentrator photovoltaic (CPV) solar power generation ...
SBIRPhase I2011National Science Foundation -
High Radiation Resistance Inverted Metamorphic Solar Cell
Amount: $599,993.00The innovation in this SBIR Phase II project is the development of a unique triple junction inverted metamorphic technology (IMM), which will enable the manufacturing of very lightweight, low-cost, In ...
SBIRPhase II2011National Aeronautics and Space Administration -
Solar-Powered, Micron-Gap Thermophotovoltaics for MEO Applications
Amount: $99,997.00The proposed innovation is an InGaAs-based, radiation-tolerant, micron-gap thermophotovoltaic (MTPV) technology. The use of a micron wide gap between the radiation source and the photovoltaic substan ...
SBIRPhase I2011National Aeronautics and Space Administration -
High Efficiency Flexible Photovoltaic Blankets
Amount: $100,000.00ABSTRACT: MicroLink proposes a device that combines ultra-thin, high-efficiency, GaAs-based multijunction solar cells, made using our proprietary epitaxial lift-off (ELO) process, with a novel packag ...
STTRPhase I2011Department of Defense Air Force