Quantum Light™ Product Platform
QD Vision's Quantum Light™ product platform enables breakthrough performance and significant systems cost savings without the cost/performance trade-offs typical of other materials and lighting technologies. The Quantum Light™ platform utilizes the unique, light-emitting properties of semiconductor nanocrystals to deliver an outstanding value proposition for LED-based lighting and display products, including extraordinary color quality, high power efficiency, and manufacturing versatility, all at a significant systems cost savings. More>>
QD Vision's Quantum Light™ product platform is optimally positioned to address the technology and market challenges of the next generation of liquid crystal displays (LCDs), including the rapidly growing mobile display market, desktop and notebook computers, and flat panel televisions. These initial applications alone represent more than a $1 billion addressable market by 2012 for QD Vision's quantum dot-based components. More >>
QD Vision works with multiple government agencies and industry partners to advance its unique quantum dot technology for critical applications in energy, transportation, security, and defense. Our vital work in these markets includes active participation in important research and development programs with the Department of Energy (DOE), the National Institute of Standards and Technology (NIST), the Defense Advanced Research Projects Agency (DARPA), the Army Research Lab (ARL), the Army's Night Vision and Electronic Sensors Directorate (NVESD), and others. QD Vision actively identifies and leverages the many synergies that exist between its federal development programs and applications in commercial markets, including solid state lighting and displays. More >>
Quantum Dot light emitting diodes (QLEDs) are an emerging thin film electroluminescent device technology offering the ultimate solution for displays and lighting applications. QLEDs from QD Vision provide an ultra-thin, energy efficient, stable, low-cost of manufacture, spectrally engineerable solution for lighting and displays with the options of flexible and transparent substrates.