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Polycrystalline
Thin Films
• AstroPower, Inc.
• Global Solar Energy, LLC
• The University of Toledo
• University of Delaware
• University of Florida
• University of South Florida
Multijunction Concentrators
• EMCORE Photovoltaics
• Entech, Inc.
• Spectrolab, Inc.
• SunPower Corporation
• University of Illinois
In-House Teams
• Polycrystalline Thin Film
• Thin Film Process
Integration
• Multijunction Concentrators
Team (Crystalline Materials) |
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PHASE I: IDENTIFYING CRITICAL PATHS
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| *AstroPower, Inc. | InGaP/GaAs-on-Ceramic Thin-Film Monolithically Interconnected, Large Area, Tandem Solar Cell Array |
| Global Solar Energy, LLC | Progress Toward 20% Efficient CuInxGa1-xSe2 Photovoltaic Devices on Foil Substrates |
| The University of Toledo | Polycrystalline Thin-Film Tandem Photovoltaic Cells |
| University of Delaware | Thin Film Multijunction Solar Cells Development of a High Bandgap Cell |
| University of Florida | Identification of Critical Paths in the Manufacturing of Low-Cost High-Efficiency
CGS/CIS Two-Junction Tandem Cells |
| University of South Florida | Development of a II-VI-Based High Performance, High Band Gap Device
for Thin-Film Tandem Solar Cells |
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| EMCORE Photovoltaics | A Three-Junction Solar Cell for High Concentration Applications |
| ENTECH, Inc. | Near-Term Integration of III-V Cells Operating at 440X, into ENTECH's Field-Proven Concentrator Module |
| Spectrolab, Inc. | High Efficiency, Low Cost, III-V Concentrator PV Cell and Receiver Module |
| SunPower Corporation | Lens-Based Concentrator Modules: Exploring Critical Optical and System Integration Issues |
| University of Illinois | Cu(In,Ga)Se2 Heterojunction Solar Cells for Extreme High-Efficiency
Photovoltaic Concentrators |
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| Polycrystalline Thin Film |
| Thin Film Process Integration |
| Multijunction Concentrators Team (Crystalline Materials) |
*under negotiations
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