The following list of current light emitting diode projects is organized alphabetically by funding source and performing organization.
| Building Technologies Program/NETL |
| Product Development I |
| Small-Area Array-Based LED Luminaire Design |
|
Cree, Inc. |
| An Efficient LED System-in-Module for General Lighting Applications |
|
Philips Electronics North America Corporation |
| Core Technology II |
| Epitaxial Growth of GaN Based LED Structures on Sacrificial Substrates |
|
Georgia Tech Research Corporation |
| Low-Cost Substrates for High-Performance Nanorod Array LEDs |
|
Purdue University |
| High-Performance Green LEDs by Homoepitaxial MOVPE |
|
Rensselaer Polytechnic Institute |
| Photoluminescent Nanofibers for High-Efficiency Solid-State Lighting |
|
RTI |
| Development of Bulk Gallium Nitride GrowthTechniques for Low Defect Density Large Area Native Subs |
|
Sandia National Laboratories |
| Innovative Strain Engineered InGaN Materials of High-Efficiency Green Light Emission |
|
Sandia National Laboratories |
| Novel ScGaN and YGaN Alloys for High-Efficiency Light Emitters |
|
Sandia National Laboratories |
| High-Efficiency Nitrade-Based Photonic Crystal Light Sources
|
|
University of California, Santa Barbara |
| Product Development II |
| An Integrated Solid-State LED Luminaire for General Lighting |
|
Color Kinetics Incorporated |
| Phosphor Systems for Illumination-Quality Solid-State Lighting Products |
|
General Electric Global Research |
| White LED with High Package Extraction Efficiency |
|
Osram Sylvania Product Inc. |
| Core Technology III |
| Integration of Novel Heterostructure Designs Having Low-Defect Densities with Polarization Phenomena to Achieve Enhanced Charge Transport, p-type Doping and Hole Injection and Increased Internal Quantum Efficiency
|
|
Carnegie Mellon University |
| High-Efficiency Non-Polar GaN-Based LEDs
|
|
Inlustra Corporation |
| Improved InGaN Epitaxial Quality by Optimizing Growth Chemistry
|
|
Sandia National Laboratories |
| Multicolor, High-Efficiency, Nanotextures LEDs
|
|
Yale University |
| Product Development III |
| LED Chips and Packaging for 100 LPW SSL Component
|
|
Cree, Inc. |
| Nano-Core Technology |
| Development of White LEDs Using Nanophosphor-InP Blends
|
|
Sandia National Laboratories |
| Investigation of Surface Plasmon Mediated Emission from InGaN LEDs Using Nano-Patterned Films
|
|
Sandia National Laboratories |
| Nanostructural Engineering of Nitride Nucleation Layers for GaN Substrate Dislocation Reduction
|
|
Sandia National Laboratories |
| Nanostructural Engineering of Nitride Nucleation Layers for GaN Substrate Dislocation Reduction |
|
Sandia National Laboratories |
| Nanowire Template Lateral Epitaxial Growth of Low Dislocation Density GaN |
|
Sandia National Laboratories |
| |
|
|
| Small Business Innovation Research |
| A Novel Growth Technique for Large Diameter A1N Single Crystals (Phase II)
|
|
Fairfield Crystal Technology, LLC |
| Improved Light Extraction Efficiencies of White pc-LEDs for SSL by Using Non-Toxic, Non-Scattering, Bright, and Stable Doped ZnSeQuantum Dot Nanophosphors (Phase I)
|
|
Nanomaterials & Nanofabrication Laboratories (NN-Labs, LLC) |
