Fine print: The lights shown here are made of tiny LEDs printed on a surface using standard screen printing.
Credit: Nth Degree Technologies
Energy
Lighting Sheets Made of Tiny LEDs
Nth Degree Technologies plans to replace bulbs with lights that can be printed on large, flexible surfaces.
- Friday, October 28, 2011
- By Kevin Bullis
A company called Nth Degree Technologies hopes to replace light bulbs with what look like glowing sheets of paper. The company's first commercial product is a two-by-four-foot-square light, which it plans to start shipping to select customers for evaluation by the end of the year.
The technology could allow for novel lighting designs at costs comparable to the fluorescent light bulbs and fixtures used now, says Neil Shotton, Nth Degree's president and CEO. Light could be emitted over large areas from curved surfaces of unusual shapes. The printing processes used to make the lights also make it easy to vary the color and brightness of the light emitted by a fixture. "It's a new kind of lighting," Shotton says.
Nth Degree makes its light sheets by first carving up a wafer of gallium nitride to produce millions of tiny LEDs—one four-inch wafer yields about eight million of them. The LEDs are then mixed with resin and binders, and a standard screen printer is used to deposit the resulting "ink" over a large surface.
In addition to the LED ink, there's a layer of silver ink for the back electrical contact, a layer of phosphors to change the color of light emitted by the LEDs (from blue to various shades of white), and an insulating layer to prevent short circuits between the front and back. The front electrical contact, which needs to be transparent to let the light out, is made using an ink that contains invisibly small metal wires.
The new transparent electrical contact could itself prove important as a replacement for the indium tin oxide (ITO) used in touch screens and other displays. ITO is brittle and can't be printed, so it's not suitable for flexible displays. It can also be expensive, depending on the price of indium.
While the devices the company has made so far are more efficient than incandescent lights, they're not yet as efficient as fluorescent lights. They emit 20 lumens per watt, compared with about 80 lumens per watt for typical overhead fluorescent lights and 65 lumens per watt for compact fluorescents. A 60-watt light bulb from GE gets about 14 lumens per watt.
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S0ma
90 Comments
- 571 Days Ago
- 10/28/2011
http://nthdegreetech.com/printed-lights-info.php
5000 Lumens from a single troffer with a peak power
requirement of 150Watts equates to ~33Lumens/Watt
lowenthalm
2 Comments
- 571 Days Ago
- 10/28/2011
That is a mistake in the wording on our website. The supply is rated for up to 150 watts so that we can make brighter lamps if we desire. The 5000 lumen design uses this same power supply, but runs at 90-100 watts.
Mark Lowenthal
VP Applied Research
Nth Degree Technologies
Kevn73
41 Comments
- 571 Days Ago
- 10/28/2011
Evolution and technology are composed of stepping stones; tiny increments, blended together, branching out with virtually untraceable complexity into diverse forms. What forms emerge depends on what the current demands of the system are and what is physically possible based on both the underlying laws of physics and the prior accumulation/modification of information. I am thoroughly impressed and excited by this latest branch in technology. We can see plainly that the first products will not be as efficient or convenient as existing solutions. But we can just as plainly see that subsequent products, made possible only because of this transitional form, will be more efficient, more powerful and more convenient than anything currently in existence. Granted, my point is somewhat pedantic, as it pertains equally to all things that change over time, but I still find myself captivated. Unlike evolutionary adaptations, knowledge is accumulating at warp speed. With that said... Lights to full power, Scotty! Let's show the Klingons the brightness and clarity of our digital displays.
*and yes I'm drunk*
"Nerds Gone Wild." Look for it on DVD, Oct 31st.
Wait. Why am I online avoiding the party? Damn it I'm such a nerd.
G'night!
lowenthalm
2 Comments
- 571 Days Ago
- 10/28/2011
The video linked in the article is to prototype design concepts that did not use our LEDs. The following link was an actual micro-LED lamp that we had at the same ARPA-E show. The LEDs in the video are printed at a much lower LED density, are orders of magnitude dimmer than our current generation micro-LEDs, but still a better illustration. of the technology, at least on video.
http://www.youtube.com/watch?v=yrrZ-A6VLqM
Mark Lowenthal
VP Applied Research
Nth Degree Technologies
Kevin Bullis
179 Comments
jputzeys
1 Comment
- 568 Days Ago
- 10/31/2011
I would like to establish an email contact in order to exchange info we would like to publish on our website
please email me to
jacquesputzeys@usa.net
Many thanks
unclejim
1 Comment
lasertekk
146 Comments
- 571 Days Ago
- 10/28/2011
I would be interested in knowing if the technology can be applied 'on location' to any surface. A interior remodel contractor friend of mine considers the ultimate in room lighting design to be 100% coverage of the ceiling, resulting in light dispersal that would approximate natural light ala the 'sunroof effect'. However, I don't see a wallpaper-like application being that bad, if it came down to it.
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Anumakonda
168 Comments
Advance in Lighting
It will be a great advance in Lighting Technology. Congratulations for the inventors.
Dr.A.Jagadeesh Nellore(AP)India
E-mail: anumakonda.jagadeesh@gmail.com
Reply