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Synopsis: Domenii: Electronics: Electronics generale: Electronic components: Diode: Oled:

and LG Electronics USA today announced the landmark achievement of GREENGUARD Certification for LG newest OLED TV, model 55ec9300.

This all-new 55-inch class (54.6 inches measured diagonally) LG Curved OLED is being launched this month at various retailers nationwide. s we bring more and more electronics into our living and working environments,

LG taking the leadership role in obtaining GREENGUARD Certification for its new OLED TV demonstrates the company ongoing commitment to bringing safer and healthier products to market.

G OLED TVS are designed to deliver superior picture quality with infinite contrast ratio achieving the deepest blacks imaginable

For example, the energy efficient 55ec9300 also is among the first OLED TVS to be certified ENERGY STAR, according to the U s. Environmental protection agency.

Find more about the LG OLED TV and other UL Environment Certified and Validated LG Electronics products at this link on UL Environment online Sustainable Product Guide (www. ul. com/SPG), used by purchasers, specifiers,

The new 55-inch class LG OLED TV, on sale now at a suggested price of $3, 499, is amazingly thin 4. 5 millimeters at its thinnest point (11/64ths

Other technologies, called organic light-emitting diode (OLED) displays, use an organic compound to reach upward of 100 percent of the color gamut

Other technologies, called organic light-emitting diode (OLED) displays, use an organic compound to reach upward of 100 percent of the color gamut

For instance LEDS can produce 100s Lumen per Watt and OLEDS (organic LEDS) around 40. Although the device has a diode-like structure its light-emitting system is not based on a diode system

and organic light emitting diodes (OLED) technology to achieve full colour and video functionality. Lightweight flexible active-matrix backplanes may also be used for sensors

"And since the physical process governing organic photovoltaics is very similar to other organic semiconductors (organic light-emitting diodes, for example,

The new method should reduce the time nano manufacturing firms spend in trial-and-error searches for materials to make electronic devices such as solar cells organic transistors and organic light-emitting diodes.

"It also would produce transparent electrodes for solar cells and organic light-emitting diodes, Clem said. The method was inspired by industrial embossing processes in

including Organic light Emitting Diodes (OLEDS), digital circuits, radio frequency identification (RFID) tags, sensors, wearable electronics, and flash memory devices.

#Bright blue PHOLEDS Almost Ready for TV A new energy-efficient organic LED (OLED) that glows a deep blue is finally close to meeting the most stringent U s. video display brightness requirements,

OLEDS have enabled a new generation of bright, high-quality, low-cost, power-efficient, flexible, lightweight flat panel displays.

Each pixel in an OLED display typically consists of red, green, and blue OLEDS that shine with different brightnesses to produce any desired color.

Phosphorescent OLEDS (PHOLEDS) use only one quarter the energy of conventional OLEDS. Green and red PHOLEDS are used already in smartphones and TVS

leading to longer battery lives and lower electricity bills, but developing the kind of bright deep blue PHOLEDS needed for video displays has proven challenging.

By contrast, organic semiconducting light-emitting materials (OLEDS) can be incorporated in thin layers and used on curved surfaces.

However, OLEDS for large-area illumination are cost-intensive at present owing to their low efficiency and short lifetime.

Today the most commercially successful organic electronic devices are OLEDS (organic light emitting diodes) found in smart phone displays.

For instance LEDS can produce 100s Lumen per Watt and OLEDS (organic LEDS) around 40. Although the device has a diode-like structure its light-emitting system is not based on a diode system

and organic light-emitting diodes (OLEDS) L

#Google s Unified Privacy Policy Draws Threat Of $15m Fine In The netherlands The national data protection authority in The netherlands has warned Google that it could be fined up to $15 million

OLEDS could be used in large sheets, because organic light-emitting molecules can be deposited over large surfaces.

OLED lighting is 10 to 100 times more expensive than conventional lighting but as costs come down,

In recent weeks, researchers have announced advances that could greatly improve the efficiency of OLED lighting.

It does this via nanoparticles that ease the transition for light as it passes between the parts of an OLED device.

Konica-Minolta and OLED Works (a business formed from Kodak former OLED division) are both developing cheaper new manufacturing techniques.

as well as the Dutch company Philips, plan to scale up production of OLED lighting in the next year or two,

OLED lighting is expensive in part because manufacturers typically use equipment developed for making high-resolution displays,

says Michael Boroson, the chief technology officer of OLED Works. His company is reëngineering the equipment

This fall, Konica-Minolta will start full-scale production of OLED lights on flexible plastic sheets.

which should be faster and cheaper than making OLED lights in batches, as is done now.

Even with such advances, it will take years to bring costs low enough to make OLED lighting widely used.

OLED lamps cost as much as $9, 000 now. But, Philips aims to introduce OLED products by the beginning of 2017 that cost $600 to $1, 600.

Costs are expected to drop further as the scale of production increases. Fundamental research could also make OLED lighting more realistic.

OLED lighting blends red, green, and blue light, but the blue light is relatively inefficient. Last week

Stephen Forrest, a professor of materials science and engineering at the University of Michigan, published work on a more efficient,

Forrest says. believe OLED lighting will be a very important lighting source in the future, perhaps a dominant one.

So the screen in the Apple Watch is almost certainly an OLED display. Rather than the pixels being illuminated by a backlight,

Manufacturers can already make OLED displays flexible. They first laminate a sheet of plastic to glass and then deposit the materials for the pixels and the electronics on top of both.

Samsung showed off a fully FLEXIBLE OLED display in 2013. The tricky part is making sure the devices are durable.

OLED pixels can be destroyed by even trace amounts of water vapor and oxygen, so you have to seal the display within robust, high-quality, flexible materials.

The new designnown as a sequential displayould help LCDS close the energy efficiency gap with another type of display, the OLED.

OLEDS are used in some smartphones and TVS, but are more expensive to produce. Marc Mcconnaughey, CEO of Light Polymers, says the company materials are being evaluated by flat-panel display manufacturers.

Bluetooth Smart, Zigbee, Z-Wave, Ant, active RFID), electronic paper and OLED displays, haptic or tactile feedback, vibration alerts, GPS acquisition,

#Fujifilm and imec Develop Full-Color Organic light-emitting diodes Organic EL displays are used increasingly for televisions, mobile devices including smartphones as well as wearable devices.

In the latest achievement, Fujifilm and imec produced full-color OLEDS with the photoresist technology for organic semiconductors

to create full-color OLEDS. An OLED array of 40 x 40 dots at the resolution of 640ppi was realized

and illuminated with UV rays to confirm that red, green and blue dots separately emitted light.

An example would be creating an OLED array that adds a fourth color to red

as well as developing previously-unseen devices such as a new sensors that integrate OLED with the organic photodetector.

and Transparent OLED display panels initially designed to create a'virtual necklace'for a jewellery firm.

and Transparent OLED display solutions,'said Samsung. The technology consists of a 55-inch mirror fitted with a transparent OLED on the front.

It is fitted with Intel's Real Sense technology, which uses 3d cameras to track the viewer and display clothes and other items virtually,

but Samsung said its Mirror OLED display panel has more than 75 per cent reflectance level and delivers at least 50 per cent higher reflectance than rival models.

'We are excited very to help bring a new interactive dimension to the world of multi-channel shopping through the integration of our newest OLED displays with Intel Realsense technology,

#Imec demoes full-colour OLEDS Imec and Fujifilm have demonstrated full-colour OLEDS by using their jointly-developed photoresist technology for organic semiconductors,

a technology that enables submicron patterning. This paves the way to producing high-resolution and large organic electroluminescent (EL) displays

In the latest achievement, Fujifilm and imec produced full-colour OLEDS with the photoresist technology for organic semiconductors

to create full-color OLEDS. An OLED array of 40 x 40 dots at the resolution of 640ppi was realized

and illuminated with UV rays to confirm that red, green and blue dots separately emitted light.

An example would be creating an OLED array that adds a fourth color to red

as well as developing previously-unseen devices such as a new sensors that integrate OLED with the organic photodetector o

Whether or not that means graphene-based LED TECHNOLOGY can supplant OLED is, of course, an open question.

While OLEDS have become popular in certain Samsung displays, the OLED revolution in mainstream television has yet to occur.

What was predicted once as The next Big Thing after 1080p has been supplanted largely by conventional LCD technology at higher 4k resolutions.

OLED has just one major vendor LG offering serious support, and that not enough to drive long-term R&d for continuing the technology in large panels.

vibrant colors that have made OLEDS desirable, but if they can, it possible that TV manufacturers will finally be able to deliver the promise of OLED in a different technology.

Of course, given the long lead time between research and commercialization, wee still talking about advances that could take five to ten years to hit the market i

but Samsung is one of the major manufacturers now advancing QD technology over OLED with the recent release of its Super Ultra High-Definition TVS (SUHD)

the ability to upconvert two low energy photons into one high energy photon has potential applications in biological imaging, data storage and organic light-emitting diodes.

the ability to upconvert two low energy photons into one high energy photon has potential applications in biological imaging, data storage and organic light-emitting diodes.

2015display technology/LEDS/SS Lighting/OLEDS Engineers create chameleon-like artificial'skin'that shifts color on demand March 12th, 2015breakthrough in OLED technology March 2nd,

February 23rd, 2015flexible Electronics Breakthrough in OLED technology March 2nd, 2015discoveries 30 years after C60: Fullerene chemistry with silicon:

2015researchers enable solar cells to use more sunlight February 25th, 2015display technology/LEDS/SS Lighting/OLEDS Breakthrough in OLED technology March 2nd,

Graphene and diamonds prove a slippery combination June 10th, 2015chip Technology Iranian Researchers Model, Design Optical Switches June 13th, 2015new boron compounds for organic light-emitting diodes:

/LEDS/SS Lighting/OLEDS Surfing a wake of light: Researchers observe and control light wakes for the first time July 6th,

"Besides solar energy, the ability to upconvert two low energy photons into one high energy photon has potential applications in biological imaging, data storage and organic light-emitting diodes.

#Next-generation illumination using silicon quantum dot-based white-blue LED (Nanowerk News) A silicon quantum dot (QD)- based hybrid inorganic/organic light-emitting diode (LED) that exhibits white-blue electroluminescence

and we strongly believe that it can be also an ideal candidate for other optoelectronic applications such as OLEDS

consequently, are of interest for use as organic LEDS (OLEDS). Within graphene, benzene rings are fused to form a honeycomb structure.

The boron-containing nanographenes have an impact on two key properties of an OLED luminophore

Yoo's group brought their OLED expertise to create GQD-based LEDS. The GQDS with high luminance tunability and efficiency were synthesized by a route based on graphite intercalation compounds (GICS.

GQDS were used then as emitters in organic light-emitting diodes (OLEDS) in order to identify the GQD's key optical properties.

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