LED & OLEDs Collection
White Paper | Technology |
Oct 23, 2013
Latest LRC Program Aims to Fine Tune Light for Greenhouse Crops & Medicinal Plants
Light and plants expert Tessa Pocock, Ph.D., recently joined the Lighting Research Center (LRC) at Rensselaer Polytechnic Institute as a senior research scientist, leading the development of a new plant physiology lighting program. Her research focuses on plant photosynthesis, and plant development and regulation by light for traditional greenhouse crops and the emerging field of medicinal plants.
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Fundings + Projects |
Sep 11, 2013
Project cyFLEX Launched to Develop OLED-Based Luminescent Packaging
cynora GmbH and the Karlsruhe Institute for Technology (KIT) jointly announce the successful launch of Project cyFLEX. Organic light-emitting diodes (OLEDs) will serve as a basis for generating flexible and luminescent surfaces for smart packaging and advertising applications. Self-luminous packaging and ultrathin flexible advertising panels for all kinds of products may soon become reality and will revolutionize product marketing.
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White Paper | Technology |
Sep 04, 2013
Imec and Veeco Announce Collaboration in GaN-on-Si Devices for LED and Power Electronics Applications
Nanoelectronics research centre imec of Belgium and Veeco Instruments Inc. (Nasdaq:VECO) are collaborating on a project aimed at lowering the cost of producing gallium nitride on silicon (GaN-on-Si) -based power devices and LEDs.
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Fundings + Projects |
Sep 03, 2013
Tridonic Dresden and Fraunhofer COMEDD Present a Desk Luminaire with Flexible OLED from the Roll
The joint OLED project R2Flex has been successfully finished now. As a result Fraunhofer COMEDD and Tridonic Dresden (formerly LEDON OLED Lighting) present a demonstrator of a desk luminaire with flexible OLED. The joint project R2Flex dealt with the production of highly efficient organic devices on flexible substrates, manufactured in a roll-to-roll process technology. R2Flex was funded by the Federal Ministry for Education and Research (BMBF) with a total sum of about 11 million Euros over a period of 2.5 years.
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Technology |
Aug 27, 2013
“1 bin” Wavelength LED Wafer Is Demonstrated by Azzurro
Azzurro LED Technologies announced the breaking news during a talk at ICNS-10 today. While showing production values of less than 3 nm wavelength uniformity, the 1.0 nm result came straight from development. The record 1.0 nm result demonstrates the capability to achieve “1 bin” GaN-on-Si LED wafers with Azzurro’s technology.
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Fundings + Projects |
Aug 21, 2013
EU-Funded ManuCloud Project Combines OLED and Organic Photovoltaic in a Façade Module
The manufacturing of individually designed organic light-emitting diodes and solar cells and their combination can be realized in the near future. After three years the project ManuCloud (distributed Cloud product specification and supply chain manufacturing execution infrastructure), which was funded by the European Union, now successfully completed its work. As result the project partners Heliatek, Fraunhofer COMEDD, Tridonic Dresden and GSS Gebäude-Solarsysteme GmbH presented a demonstrator of a façade module, which combines the OLED- and OPV-technology. The objective of the ManuCloud project was the development of a service-oriented IT environment as basis for the next level of manufacturing networks by enabling production-related inter-enterprise integration down to shop floor level. Industrial relevance was guaranteed by involving industrial partners from the organic photovoltaic, organic lighting and automotive supply industries.
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White Paper | Technology |
Jul 31, 2013
Rensselaer Researchers Identify Cause of LED “Efficiency Droop”
Rensselaer Polytechnic Institute researchers have identified the mechanism behind a plague of LED light bulbs: a flaw called “efficiency droop” that causes LEDs to lose up to 20 percent of their efficiency as they are subjected to greater electrical currents. Efficiency droop, first reported in 1999, has been a key obstacle in the development of LED lighting for situations, like household lighting, that call for economical sources of versatile and bright light.
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Fundings + Projects | White Paper |
Jul 18, 2013
Supported Project “cyCESH” for Cost‐Efficient Printed OLEDs
On June 1, 2013, BMBF launched the project cyCESH involving cynora GmbH, Novaled AG and the University of Regensburg with the workgroup of Prof. Dr. Hartmut Yersin. The project is set to run for a duration of three years with a total funding of 6.1 million euros. The research of new soluble materials for the inexpensive production of organic light emitting diodes (Organic Light‐Emitting Diodes ‐ OLEDs) and the production of OLED devices with high efficiency are the main focus of the project.
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Fundings + Projects | White Paper |
Jun 12, 2013
Laser Processing Enables Selective Layer Modification of Encapsulated OLEDs for Signage Applications
4JET Technologies GmbH introduces a new laser process for customization and optimizing of organic LEDs at LOPE-C 2013. The new technology is a joint development with Novaled AG.
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Fundings + Projects |
Jun 11, 2013
Cheaper, 'Greener' Lighting with Inkjet-Printed Hybrid Quantum dot OLEDs
To make OLEDs more cheaply and easily, researchers from the University of Louisville in Kentucky are developing new materials and production methods using modified quantum dots and inkjet printing. The team will discuss its work developing more commercially feasible QD-OLED devices at the Conference on Lasers and Electro-Optics (CLEO: 2013) June 9-14 in San Jose, Calif.
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Technology |
Jun 04, 2013
MIT Demonstrates New Method for Fine-Tuning Emissions from Quantum Dots
Tiny particles of matter called quantum dots, which emit light with exceptionally pure and bright colors, have found a prominent role as biological markers. In addition, they are realizing their potential in computer and television screens, and have promise in solid-state lighting. New research at MIT could now make these quantum dots even more efficient at delivering precisely tuned colors of light.
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Technology |
May 24, 2013
New Family of Tiny Crystals Glow Bright in LED Lights
Light-emitting diodes, better known as LEDs, offer substantial energy savings over incandescent and fluorescent lights and are easily produced in single colors such as red or green commonly used in traffic lights or children's toys. Developing an LED that emits a broad spectrum of warm white light on par with sunlight has proven tricky, however. LEDs, which produce light by passing electrons through a semiconductor material, often are coupled with materials called phosphors that glow when excited by radiation from the LED. Minuscule crystals that glow different colors may be the missing ingredient for white LED lighting that illuminates homes and offices as effectively as natural sunlight.
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Technology |
May 08, 2013
Strain Engineering Improves Light Output from Green LEDs
The Chinese Academy of Science reports that researchers in China have used strain engineering to improve the light output power of 530nm green light-emitting diodes (LEDs) by 28.9% at 150mA current injection [Hongjian Li et al, Appl. Phys. Express, vol6, p052102, 2013]. The research was carried out by Chinese Academy of Sciences’ Institute of Semiconductors, Beijing, and University of Hong Kong.
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Technology |
May 02, 2013
HD Retina, Martini's World Exclusive New LED Light for an Unmatched Color Perception Quality
All truly great inventions, the ones that really have affected the course of history and people’s lives, have changed the context of a world that was not ready to welcome them. Small and large objects have introduced new solutions and unprecedented perspectives that previously only existed in the minds of their creators. They are innovative, surprising, revolutionary products: in a word unexpected.
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Technology |
Apr 03, 2013
Cambridge Invests £1 million to Accelerate GaN-on-Silicon LED Research
Gallium nitride has been described as “the most important semiconductor since silicon” and is used in energy-saving LED lighting. A new £1million growth facility will allow Cambridge researchers to further reduce the cost and improve the efficiency of LEDs, with potentially huge cost-saving implications.
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Technology |
Mar 01, 2013
KIT Demonstrates Light from Silicon Nanocrystal LEDs
ilicon nanocrystals have a size of a few nanometers and possess a high luminous potential. Scientists of KIT and the University of Toronto/Canada have now succeeded in manufacturing silicon-based light-emitting diodes (SiLEDs). They are free of heavy metals and can emit light in various colors. The team of chemists, materials researchers, nanoscientists, and opto-electronic experts presents its development in the “Nano Letters” journal.
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Technology |
Feb 27, 2013
Bluglass Produced p-GaN Films that Meet Industry Benchmark for the First Time
Australian clean technology innovator, BluGlass Limited (ASX: BLG) announced today that it has succeeded in producing p-type gallium nitride (GaN) films with industry equivalent electrical properties using its breakthrough low temperature Remote Plasma Chemical Vapour Deposition (RPCVD) technology when grown on top of MOCVD GaN templates.
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Fundings + Projects |
Feb 19, 2013
Organic Electronics - How To Make Contact Between Carbon Compounds and Metals
Organic electronics has already hit the market in smartphone displays and holds great promise for future applications like flexible electroluminescent foils (a potential replacement for conventional light bulbs) or solar cells that convert sunlight to electricity. A reoccurring problem in this technology is to establish good electrical contact between the active organic layer and metal electrodes. Organic molecules are frequently used also for this purpose. Until now, however, it was practically impossible to accurately predict which molecules performed well on the job. They basically had to be identified by trial-and-error. Now, an international team of scientists around Dr. Georg Heimel and Prof. Norbert Koch from the HZB and the Humboldt University Berlin has unraveled the mystery of what these molecules have in common. Their discovery enables more focused improvements to contact layers between metal electrodes and active materials in organic electronic devices.
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White Paper | Technology |
Feb 14, 2013
Cree Sets New R&D Performance Record with 276 Lumen-Per-Watt Power LED
Cree, Inc. delivers another industry first with a barrier-breaking 276 lumen-per-watt white R&D power LED. This significant milestone exceeds Cree’s previous R&D industry record of 254 lumens per watt and demonstrates Cree’s continued commitment to innovate and accelerate the adoption of LED lighting.
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Technology |
Feb 11, 2013
New Atomic Layer Deposition Process for Nitride LED Reflector Structures
Although some groups have developed DBRs for increasing output power of LEDs before, this approach is claimed as the first proposal and demonstration of DBRs grown using ALD rather than electron-beam (EB) evaporation. The advantages of ALD over EB evaporation include better thickness uniformity over large-diameter substrates and thickness control at the atomic level.
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Fundings + Projects |
Jan 31, 2013
Public Funded OLED Project So-Light Successfully Concluded
Eleven leading German OLED companies and research institutions announced the successful completion of the OLED (Organic Light Emitting Diode) related project; So-Light. This € 14.7 m project was supported by the German Ministry of Education and Research (BMBF) over a three and a half year period and addressed the complete value chain, from primary OLED materials through to OLED-lighting applications. Several of the promising innovations created within the project will now be brought to market by the participants of the So-Light project.
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White Paper | Technology |
Jan 30, 2013
Tamura and Koha Demonstrate White LED Using Gallium Oxide at Lighting Japan 2013
Tamura Corp and Koha Co Ltd developed a white LED using gallium oxide (β-type Ga2O3) and exhibited it at Lighting Japan 2013, a trade show of lighting devices, which took place from Jan 16 to 18, 2013, in Tokyo.
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White Paper | Technology |
Jan 30, 2013
New Options for Transparent Contact Electrodes
Found in flat screens, solar modules, or in new organic light-emitting diode (LED) displays, transparent electrodes have become ubiquitous. Typically, they consist of metal oxides like In2O3, SnO2, ZnO and TiO2 .
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Technology |
Jan 29, 2013
University Claims Development of Revolutionary New Zirconium-Doped Hafnium Oxide based Low-Cost LED
Professor Yue Kuo of the Artie McFerrin Department of Chemical Engineering at Texas A&M University has fabricated a new type of LED, capable of producing a wide spectrum light while operating for long periods of time at atmospheric conditions. This device is based on a new concept of light emission from an ultra-thin amorphous dielectric layer.
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White Paper | Technology |
Jan 09, 2013
Scientists Mimic Fireflies to Make Brighter LEDs
The nighttime twinkling of fireflies has inspired scientists to modify a light-emitting diode (LED) so it is more than one and a half times as efficient as the original. Researchers from Belgium, France, and Canada studied the internal structure of firefly lanterns, the organs on the bioluminescent insects’ abdomens that flash to attract mates. The scientists identified an unexpected pattern of jagged scales that enhanced the lanterns’ glow, and applied that knowledge to LED design to create an LED overlayer that mimicked the natural structure. The overlayer, which increased LED light extraction by up to 55 percent, could be easily tailored to existing diode designs to help humans light up the night while using less energy. The work is published in a pair of papers today in the Optical Society’s (OSA) open-access journal Optics Express.
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Technology |
Dec 07, 2012
Copper, Gold and Tin for Efficient LED Chips
With gold, copper or tin and special galvanizing processes, scientists are improving the function of semi-conductors and making the manufacture of microelectronic systems a child‘s play. Especially the LED industry could profit from this.
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White Paper | Technology |
Nov 26, 2012
BluGlass Demonstrates Low Temperature Grown n-GaN Films that Meet Industry Benchmarks
Australian clean technology innovator, BluGlass Limited announced today that it is now producing n-type gallium nitride (GaN) films with demonstrated industry equivalent performance properties using its breakthrough low temperature Remote Plasma Chemical Vapour Deposition (RPCVD) technology when grown on top of MOCVD GaN templates.
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Technology |
Nov 06, 2012
Development of Gallium Nitride Wafers Nearly Doubling Green LED Luminous Efficiency
The GaN wafers developed by NGK feature low defect density across the entire 2-inch diameter of the wafer surface and have a colorless transparency. NGK achieved this through proprietary improvements to liquid phase epitaxial technology for single crystal growth.
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Products, Materials + Tools |
Oct 05, 2012
Key Milestone Reached in OLED Development: cynora Presents New Flexible Prototype
cynora today unveiled a new flexible OLED prototype, demonstrating yet again the huge potential of OLED technology. One key aspect that sets organic light-emitting diodes (OLEDs) apart from conventional LEDs, is that they are two-dimensional light sources. Additionally, they are extremely thin. This property makes them ideally suited for lighting systems and flat screen displays. So far, however, OLEDs have only been used in rigid form in these application areas.
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Technology |
Sep 13, 2012
NTNU Researchers Commercialize Semiconductors Grown on Graphene
NTNU researchers have patented and are commercializing GaAs nanowires grown on graphene, a hybrid material with competitive properties. Semiconductors grown on graphene are expected to become the basis for new types of device systems, and could fundamentally change the semiconductor industry. The technology underpinning their approach has recently been described in a publication in the American research journal Nano Letters.
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