LED & OLEDs Collection
White Paper | Technology |
Sep 11, 2012
SMART-Project Aims to Develop Logic and Light on a Chip Using GaN-on-Si Technology
The research project Low Energy Electronics Systems (LEES) has started its work with a kick-off meeting. The program’s initiator is the renowned Singapore MIT Alliance for Research and Technology (SMART) Center based in Singapore. The LEES team consists of eminent research and science specialists and is targeting the development of cuttingedge technology to increase energy efficiency and advance high-tech industries that complement microelectronics. Two AIXTRON CRIUS® 1x200 mm systems, which the project managers ordered early this year, will form the technological foundation basis for the LEES project work. They will be available for use in the project from the fourth quarter of 2012.
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Fundings + Projects | White Paper |
Aug 01, 2012
Researchers Study How to Avoid Charge Traps in Plastic Electronics
Plastic electronics hold the promise of cheap, mass-produced devices. But plastic semiconductors have an important flaw: the electronic current is influenced by “charge traps” in the material. These traps, which have a negative impact on plastic light-emitting diodes and solar cells, are poorly understood.
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White Paper | Technology |
Jul 31, 2012
Cree Announces 170 Lumen-Per-Watt LED Light Bulb Demonstrator
Less than one year after showcasing the 152 lumens-per-watt concept LED bulb, Cree, Inc. (Nasdaq: CREE) delivers a new performance benchmark with the 170 lumens-per-watt (LPW) prototype LED light bulb. The innovations behind the high-performance 170 LPW LED bulb are enabling significantly higher efficacy and lower cost for Cree’s luminaire portfolio and demonstrate Cree’s continued commitment to accelerate the adoption of LED lighting by addressing initial cost and payback – key barriers to widespread LED lighting adoption.
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Fundings + Projects |
Jul 13, 2012
Utah Physicists Invent ‘Spintronic’ LED
University of Utah physicists invented a new “spintronic” organic light-emitting diode or OLED that promises to be brighter, cheaper and more environmentally friendly than the kinds of LEDs now used in television and computer displays, lighting, traffic lights and numerous electronic devices.
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Technology |
Jul 07, 2012
LED System Design with Cititzen LEDs (by A. Lohrer, Endrich)
Rapid improvements in high-power LEDs are opening up more and more application possibilities. These go beyond the simple replacement of the light bulb: thanks to fast technology advancements creative lighting solutions such as object illumination that were unthinkable a few years ago are now possible (see Figure - Illuminated Bridge). Recent price trends have resulted in many large lighting companies now exclusively using LEDs as light sources for new developments.
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Technology |
May 11, 2012
Bridgelux and Toshiba Achieve World Class Performance for 8″ GaN-On-Silicon LEDs
Bridgelux, a leading developer and promoter of LED lighting technologies and solutions, and Toshiba Corporation, a world-leading semiconductor manufacturer, today announced that Bridgelux and Toshiba have achieved the industry’s top class 8” GaN on Silicon LED chip emitting 614mW, <3.1V@350mA with 1.1mm square chip, just months after they have engaged in a joint collaborative agreement this year. Bridgelux and Toshiba will further accelerate their development efforts for LED chips, which have seen increasing demand for LCD panels and lightening systems world wide.
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Technology |
May 09, 2012
NGK Developed GaN Wafer for Ultra High Brightness LEDs
NGK Insulators has announced it has developed gallium nitride (GaN) wafers that double luminous efficiency of a LED light source compared to conventional materials. Created with original liquid phase epitaxial growth technology, NGK's GaN wafer has low defect density and colorless transparency over the whole wafer surface.
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Technology |
May 08, 2012
GT Advanced Technologies Releases Findings of Latest Case Study on Impact of Sapphire Material on HB LED Manufacturing
GT Advanced Technologies will host a LED manufacturing symposium in Shanghai, China, May 9-10, 2012. The event will bring together a wide range of manufacturers from the LED value chain throughout Asia, from sapphire crystal growers to epi-wafer and LED device producers, to discuss the metrics that matter most in producing high yielding and high quality LEDs. Particular focus will be on the role that high quality sapphire material plays in driving downstream yield improvements and costs reductions. Presenters include representatives from Philips Lumileds, Arima Optoelectronics, Yole Developpement, KLA Tencor, Meyer Berger and GT.
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Technology |
May 03, 2012
Strategy Analytics Study Predicts that LED Manufacturers are Considering Gallium Nitride on Silicon
As the LED market faces the challenges of softening demand, reduced government subsidies and rapidly declining pricing, manufacturers must investigate new techniques to improve cost structure. Most of the LEDs currently produced use a Gallium Nitride (GaN)-on-sapphire manufacturing process. The Strategy Analytics GaAs and Compound Semiconductor Technologies Service (GaAs) viewpoint, “Compound Semiconductor Industry Review February 2012: Optoelectronics, Materials and Equipment,” provides details of two companies that have purchased equipment from Veeco Instruments to develop less costly GaN-on-silicon fabrication processes, SemiLEDS and Epistar. The report also captures announcements for companies such as Soitec, AIXTRON, AXT, Hitachi Cable, JDSU, Sharp, Furukawa, Finisar, Oclaro, Emcore, GigOptix, IQE and Avago Technologies.
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Technology |
May 02, 2012
Low Efficiency Droop LED - Overcoming the Mysterious Phenomenon Could Lead to Affordable LED Lighting
Like a coffee enthusiast who struggles to get a buzz from that third cup of morning joe, light-emitting diodes (LEDs) seem to reach a point where more electricity no longer imparts the same kick and productivity levels-off. Now a team of researchers from California and Japan has devised a new design for green and blue LEDs that avoids much of this vexing efficiency droop. The findings will be presented at the Conference on Lasers and Electro-Optics (CLEO: 2012), taking place May 6-11 in San Jose, Calif.
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News-Spot | Technology |
Apr 25, 2012
Philips Develops Technology to Reduce Dependence on Rare Earths for LEDs
Rare earths are one of the basic elements of modern electronics. They are indispensable for producing LEDs. Since there is a growing demand and restricted quotas, the urgently needed decline of LED prices could be slowed down. Hence Philips has kicked off working on a technology that will significantly reduce its dependence on rare earth minerals for its LED lighting products.
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Technology |
Apr 13, 2012
On Time, Immediately before Light+Building, Cree Comes Up with a New R&D Performance Record of 254 Lumen-Per-Watt
LED lighting leader Cree, Inc. delivers another industry first with a barrier-breaking 254 lumen-per-watt white R&D power LED. This significant milestone exceeds Cree’s previous R&D industry record of 231 lumens per watt and demonstrates Cree’s continued commitment to accelerate the adoption of LED lighting.
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White Paper | Technology |
Mar 07, 2012
Flexible Organic LED (OLED) Lighting Reaches High Energy Efficiency
Chemical group Solvay and Holst Centre have demonstrated high efficiency flexible Organic Light Emitting Diodes (OLED) lighting tiles with a surface area of 69cm². These large-area demonstrators contain several layers deposited by solution processing at Holst Centre and additional layers applied by conventional vacuum deposition at Solvay.
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White Paper | Technology |
Mar 06, 2012
At High Environmental Temperatures and at Very Low Power LED's Wall Plug Efficiency Exceeds 100%
For the first time, researchers have demonstrated that an LED can emit more optical power than the electrical power it consumes. Although scientifically intriguing, the results won’t immediately result in ultra-efficient commercial LEDs since the demonstration works only for LEDs with very low input power that produce very small amounts of light and emits primarily in the invisible IR range of 2.4 µm.
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Technology |
Feb 10, 2012
IM³OLED Project to Develop Multiscale OLED Modeling Tool
The EU-funded IM³OLED (Integrated Multidisciplinary & Multiscale Modeling for Organic Light-Emitting Diodes) project - coordinated by Holst Centre and the Russian National Research Nuclear University MEPhI - has officially been launched. An international collaboration with the Russian Federation, the project aims to develop a software tool for multiscale OLED modeling. Such a tool would help the OLED industry escape today’s “trial-and-error” development and accelerate towards the goal of 150 lumens per Watt devices.
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Technology |
Jan 31, 2012
Removing Impurities from QDs Made by Cation-Exchange Techniques May Lead to Affordable QD-Products
To the lengthy list of serendipitous discoveries – gravity, penicillin, the New World – add this: Scientists with the U.S. Department of Energy (DOE)’s Lawrence Berkeley National Laboratory (Berkeley Lab) have discovered why a promising technique for making quantum dots and nanorods has so far been a disappointment. Better still, they’ve also discovered how to correct the problem.
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White Paper | Technology |
Jan 13, 2012
Success in Research: First Gallium-Nitride LED Chips on Silicon in Pilot Stage
Researchers at Osram Opto Semiconductors have succeeded in manufacturing highperformance prototypes of blue and white LEDs, in which the light-emitting gallium-nitride layers are grown on silicon wafers with a diameter of 150 millimeters. The silicon replaces the sapphire commonly used until now without a loss in quality. Already in the pilot stage, the new LED chips are to be tested under practical conditions, meaning that the first LEDs on silicon from Osram Opto Semiconductors could hit the market in just two years.
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Technology |
Dec 23, 2011
New Developed Technique Makes it Easier To Etch Semiconductors - Especially III-V Semiconductors
Creating semiconductor structures for high-end optoelectronic devices just got easier, thanks to University of Illinois researchers. The team developed a method to chemically etch patterned arrays in the semiconductor gallium arsenide, used in solar cells, lasers, light emitting diodes (LEDs), field effect transistors (FETs), capacitors and sensors. Led by electrical and computer engineering professor Xiuling Li, the researchers describe their technique in the journal Nano Letters.
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White Paper | Technology |
Dec 15, 2011
Independent Study Demonstrating that Pink Sapphire Produces Highest Transmission Colorless Epi-Wafers
GT Advanced Technologies Inc. announced the release of a case study that details the findings of a series of blind material studies conducted to evaluate the impact of sapphire color on the LED manufacturing process. The studies demonstrated that all sapphire, regardless of source, exhibits color at the core level, that the pink hue of GT Advanced Sapphire Furnace (ASF™) material is not indicative of impurities, and that pink ASF sapphire does not have an adverse affect on the LED manufacturing process nor does it require extra steps or incremental costs to remove the pink hue. In addition, it was demonstrated that GT ASF pink sapphire material makes the lowest absorption, highest transmission epi-wafers of the samples examined.
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Technology |
Nov 30, 2011
LEDs Produced on Patterned Sapphire Substrates Improve Overall Efficiency at Lower Costs
MicroTech has developed a wet process station for the etching of PSS (Patterned Sapphire Substrate) wafers used to increase light extraction and efficiency in high brightness LEDs. The wet station can improve manufacturing throughput, a major stumbling block to making LEDs price competitive with fluorescent lighting.
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Technology |
Nov 16, 2011
In New Quantum-Dot LED Design, Researchers Turn Troublesome Molecules to Their Advantage
By nestling quantum dots in an insulating egg-crate structure, researchers at the Harvard School of Engineering and Applied Sciences (SEAS) have demonstrated a robust new architecture for quantum-dot light-emitting devices (QD-LEDs).
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Technology |
Nov 10, 2011
Los Alamos Researchers Unravel the Mystery of Quantum Dot Blinking
Research by Los Alamos scientists published today in the journal Nature documents significant progress in understanding the phenomenon of quantum-dot blinking. Their findings should enhance the ability of biologists to track single particles, enable technologists to create novel light-emitting diodes and single-photon sources, and boost efforts of energy researchers to develop new types of highly efficient solar cells.
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Technology |
Oct 27, 2011
Competing LEDs: High-quality White Light Produced by Four-Color Laser Source
The human eye is as comfortable with white light generated by diode lasers as with that produced by increasingly popular light-emitting diodes (LEDs), according to tests conceived at Sandia National Laboratories. Both technologies pass electrical current through material to generate light, but the simpler LED emits lights only through spontaneous emission. Diode lasers bounce light back and forth internally before releasing it.
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Technology |
Oct 18, 2011
EPISTAR LAB Launched a New Platform to Achieve 3.0V White LED Chip at 1A Operation
EPISTAR LAB has developed a technology suitable for lighting applications to reach high efficacy by a single chip in size of 55mil for white LED to ease the complicated packaging of wire bonding. This technology enables a white LED with a lower voltage down to 3.0V at 1A operation and junction temperature of 85°C (3.2V at room temperature).
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Technology |
Oct 17, 2011
609 nm Red LED Prototype from OSRAM Opto Semiconductors Achieves Record Efficiency
A red high-power LED has set a new efficiency record in an OSRAM Opto Semiconductors R&D lab with an electro-optical efficiency of 61%. The 1 mm2 chip housed on a laboratory package emits at a wavelength of 609 nm (λ-dom) and has achieved a record value of 201 lm/W at an operating current of 40 mA. At a typical operating current of 350 mA its luminous efficacy is still an impressive 168 lm/W, which means that even at this high wattage more than half of the electrical energy is converted into light.
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Technology |
Aug 10, 2011
BRIDGELUX Boost Efficiency Record for GaN-on-Silicon Technology LEDs to 160lm/W
Bridgelux Inc., a leading developer and manufacturer of LED lighting technologies and solutions, has shattered its previous industry record for highest Lumen per Watt values for Gallium Nitride on Silicon (GaN-on-Si). Using its proprietary buffer layer technology, the company has demonstrated growth of crack-free GaN layers on 8-inch silicon wafers, without bowing at room temperature, extending the company’s lead in driving the performance and manufacturability of GaN LEDs on silicon substrate.
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Technology |
Aug 02, 2011
Cree Prototype Exceeds DOE’s 21st Century Lamp L Prize Requirements
Demonstrating the future of lighting, Cree, Inc. today unveiled a concept LED light bulb from its lighting research and development team. Redefining what is possible with high-performance LED lighting, the lamp delivers more than 1,300 lumens at 152 lumens per watt (LPW) using Cree TrueWhite® Technology. Cree’s prototype LED light bulb exceeds the performance goals set by the U.S. Department of Energy (DOE) for the 21st Century Lamp, the third category in its L Prize competition.
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Technology |
Jul 26, 2011
New 3-D Photonic Crystal has both Electronic and Optical Properties
In an advance that could open new avenues for solar cells, lasers, metamaterials and more, researchers at the University of Illinois have demonstrated the first optoelectronically active 3-D photonic crystal. To test their technique, the group built a 3-D photonic crystal LED the first such working device.
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Technology |
Jul 15, 2011
Translucent Presents Novel Mirrored Si™ Process for Low-Cost LED Growth
Translucent GaN-on-Si wafer template with embedded DBR mirrors enables low-cost LED growth, the novel Mirrored Si™ process will be presented in a special session at the International Conference on Nitride Semiconductors in Glasgow, Scotland.
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Technology |
Jul 12, 2011
RoseStreet Labs Scientists Demonstrate First Long Wavelength LED Based on InGaN On Silicon Technology
RoseStreet Labs, (RSL), announced today the world’s first demonstration of a long wavelength LED device utilizing low cost silicon wafer substrates. Green and longer wavelength LEDs have been sought after by both science and industry for an extensive period of time because they would fill a high-value gap in the rapidly growing global LED market for lighting and illumination where energy efficiency, low cost and miniaturization are critical product characteristics.
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