MicroLink Devices

Company Information
Address 6457 W. Howard St.
Niles, IL, 60714-


DUNS: 135553472

# of Employees: N/A

Ownership Information

HUBZone Owned: N

Socially and Economically Disadvantaged: N

Woman Owned: N

Award Charts

Award Listing

  1. Floating Solar Arrays for Long-Endurance Sonobuoy Power Generation

    Amount: $125,000.00

    MicroLink Devices proposes the development of a 40W floating solar array and rechargeable battery system that can continuously provide 5W of power for sonobuoys. The solar sheet will be composed of fl ...

    SBIRPhase I2018Department of Defense Navy
  2. Radiation Tolerant 35% Efficient Phosphide-Based 4-Junction Solar Cell with Epitaxial Lift-Off

    Amount: $125,000.00

    MicroLink proposes to develop a phosphide-based ELO-IMM four-junction (4J) solar cell that will enhance the performance and capabilities of solar photovoltaic arrays for a variety of future NASA missi ...

    SBIRPhase I2017National Aeronautics and Space Administration
  3. 3D Nano-Epitaxial Lateral Overgrowth (nano-ELOG) of Large Area, Highly Efficient, and Flexible Multijunction Solar Cells for Space Applications

    Amount: $125,000.00

    By Epitaxial Lateral Overgrowth (ELOG) and Selective Area Growth (SAG) in nanometer scales, MicroLink Devices will develop the next generation of multijunction solar cells for Space applications. The ...

    SBIRPhase I2017National Aeronautics and Space Administration
  4. Flexible High-Efficiency Solar Panels for SmallSats and CubeSats

    Amount: $125,000.00

    MicroLink proposes to develop and test, a new type of photovoltaic module that will be suitable for use in SmallSat and CubeSat platforms requiring maximum power in a highly stowable format. MicroLin ...

    SBIRPhase I2017National Aeronautics and Space Administration
  5. Improved radiation hardness in Multijunction solar cells using wavelength specific photonic structures

    Amount: $150,000.00

    The innovation in this Phase I SBIR is the development of wavelength specific photonic structures (WSPS) technology that will improve the efficiency and radiation hardness of multijunction solar cells ...

    SBIRPhase I2017Department of Defense Air Force
  6. Flexible, Lightweight Solar Cell with 40% Efficiency Fabricated by Epitaxial Liftoff and Wafer Bonding

    Amount: $750,000.00

    MicroLink Devicesproposes to develop an ultra-high efficiency, radiation-hard, six-junction solar cell for application to Air Force space missions. The proposed technology will comprise lattice-match ...

    SBIRPhase II2017Department of Defense Air Force
  7. Light weight flexible solar cells performance enhanced with nanostructures

    Amount: $99,999.96

    In the proposed Phase I project, MicroLink and its subcontractor, the University of Texas at Austin, will increase the integrated energy generated over an entire day by employing novel periodic optica ...

    SBIRPhase I2017Department of Defense Army
  8. AlxIn1-xP LEDs with II-VI Cladding Layers for Efficient Red and Amber Emission

    Amount: $155,000.00

    Realizing solid state lighting systems with high efficiency and enhanced functionality will require the adoption of color-mixing (cm-LEDs) architectures combining highly efficient red, gree ...

    STTRPhase I2017Department of Energy
  9. Large-Area, Multi-Junction, Epitaxial Lift-Off Solar Cells with Backside Contacts

    Amount: $750,000.00

    In this Phase II program we propose to develop a manufacturable production process to introduce backside contacts to MicroLink Devices? large-area, multi-junction epitaxial lift-off (ELO) solar cells. ...

    SBIRPhase II2016National Aeronautics and Space Administration
  10. 38% Efficient Low-Cost Six-Junction GaAs/InP Solar Cells Using Double Epitaxial Lift-Off

    Amount: $125,000.00

    Double epitaxial lift-off (D-ELO) in conjunction with semiconductor bonding will be leveraged to produce 38% efficient six-junction solar cells. These solar cells will enable optimal performance for f ...

    SBIRPhase I2016National Aeronautics and Space Administration
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