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Chemistry World
January 30, 2009
Phillip Broadwith |
White LEDs to Plummet in Price Home and office lighting using white LEDs is one step closer to becoming reality now that researchers in Cambridge have developed technology which could slash the cost of their production.   |
IEEE Spectrum
January 2011
Richard Stevenson |
LED Lighting: Blue + Yellow = White Giving LEDs the blues was the key to replacing the incandescent bulb |
Chemistry World
October 9, 2011
Phillip Broadwith |
Growing gallium nitride LEDs on glass Korean researchers have grown crystalline gallium nitride on the surface of amorphous glass. The idea could lead to new, scalable ways of making semiconductor devices that don't need to be grown on silicon or sapphire wafers. |
Fast Company
September 14, 2011
Rachel Z. Arndt |
Fifty Bucks For A Lightbulb? Say Hello To LED Bulbs We're told LED bulbs will brighten our future. Just not yet. |
IEEE Spectrum
August 2008
Neil Savage |
Cheaper LEDs Possible by Growing Gallium Nitride on Silicon Engineers take a step toward cheaper solid-state lighting. |
IndustryWeek
September 1, 2008
Jill Jusko |
Low-Cost LED Lighting Advances Breakthrough by Purdue University could help reduce energy consumption. |
IEEE Spectrum
January 2012
Richard Stevenson |
LED Bulbs for Less In 2012, there will finally be a first-rate LED bulb you can afford |
National Defense
June 2011
Grace V. Jean |
New Semiconductor Readied for Mass Production Researchers have been developing gallium nitride semiconductors for nearly two decades. |
IEEE Spectrum
July 2010
Richard Stevenson |
The World's Best Gallium Nitride A little Polish company you've never heard of is beating the tech titans in a key technology of the 21st century |
IEEE Spectrum
January 2010
Richard Stevenson |
Winner: NanoGaN's Crystal Method NanoGaN's substrates will grow better, cheaper lasers |
Popular Mechanics
January 27, 2010
Adam Hadhazy |
17 Projects Shaping the Future of LED Lights The Department of Energy announced $37 million in grants earlier this month in its sixth round of funding for solid-state lighting. The cash will go toward basic research, product development and manufacturing of light-emitting diodes and carbon-containing organic light-emitting diodes. |
The Motley Fool
April 4, 2007
Dan Bloom |
Light at the End of the Tunnel for Cree? The manufacturer has been struggling, but its day may be coming. Definitely perform due diligence before investing, though. |
Military & Aerospace Electronics
April 2007
Gurnett & Adams |
Merging the Functionalities of Silicon, and III-Vs: Two Promising Approaches One of the least flexible rules in electronic design is the need to keep silicon devices, and compound semiconductor devices separate. Two new developments are now threatening to make this rule partly or entirely obsolete. |
Military & Aerospace Electronics
May 2007 |
Silicon Wafer Shipments Experience Growth for the Fifth Consecutive Year Worldwide silicon wafer area shipments increased by 20 percent in 2006 when compared to 2005 area shipments according to the SEMI Silicon Manufacturers Group (SMG). |
IEEE Spectrum
October 2005
Salvatore Coffa |
Light From Silicon For decades, silicon was a semiconducting dim bulb, but now we can make it into LEDs that match the best made from more exotic materials |
The Motley Fool
January 27, 2011
Michael Kanellos |
Cree Unfurls Its Household LED Bulb The price isn't out yet, but it cranks 800 lumens. Could it be the true 60 watt replacement? |
IEEE Spectrum
January 2011
Paul Wallich |
The Lightbulb That Really Is a Better Idea LED bulbs change the lighting equation |
IEEE Spectrum
March 2010
Richard Stevenson |
Lasers Get the Green Light Compact green-light sources could slash the cost of laser TV |
IEEE Spectrum
March 2012
Bernie Weir |
The Subtle Circuitry Behind LED Lighting The circuitry behind LED lighting poses tricky challenges |
Chemistry World
April 2010 |
LEDs to light up the world White light emitting diodes are set for a bright future in the household and commercial lighting markets. |
Military & Aerospace Electronics
December 2006
Gurnett & Adams |
Taming the Gallium Arsenide Dicing Process A 2-inch gallium nitride wafer puts a thin film of GaN on a diamond base. One application: high-power, high-frequency power amplifiers. |
Chemistry World
October 7, 2014 |
Inventors of blue LED win physics Nobel The 2014 Nobel prize in physics has been awarded to Isamu Akasaki and Hiroshi Amano, of Nagoya University, Japan, and Shuji Nakamura of the University of California, Santa Barbara, US, for the invention of efficient blue light emitting diodes. |
IEEE Spectrum
October 2011
Ozpinec & Tolbert |
Silicon Carbide: Smaller, Faster, Tougher Meet the material that will supplant silicon in hybrid cars and the electric grid |
IEEE Spectrum
December 2009
Neil Savage |
New Schemes for Powering Processors Building an on-chip high-voltage transmission grid is one way researchers think they could distribute power better |
Technology Research News
September 8, 2004 |
Pure Crystal Promises Hardy Chips Silicon carbide is hardier than than the plain silicon most computer chips are made from, and so theoretically could be a useful material for computer chips that must withstand extreme environments and high-power applications. |
This Old House
Keith Pandolfi |
Thinking Outside the Bulb Compact flourescent light bulbs and LEDs prepare for their turn in the spotlight |
The Motley Fool
April 26, 2006
Dan Bloom |
Bullish on Veeco After an unremarkable recent performance, now may be a good time for investors to load up on this tech firm. |
Chemistry World
October 2007
Philip Ball |
The Crucible Feel free to make photovoltaics better. But don't forget they have to be cheaper, too. |
The Motley Fool
August 30, 2010
Travis Hoium |
Who Will Win if 2011 Gets Tough for Solar? A rough 2011 in solar energy could leave only the strongest solar companies to survive. |
The Motley Fool
July 18, 2011
Dan Radovsky |
40-Watt Thinking from Capitol Hill Lighting manufacturers relax after a repeal of a 2007 energy bill is shot down. |
IndustryWeek
June 1, 2003
John Teresko |
LEDs Redefine Lighting Advances in light emitting diodes (LEDs) are delivering a revolution in efficiency, performance life and in how light can be deployed. |
The Motley Fool
April 19, 2007
Rich Duprey |
LEDing the Way to Profits With the world deciding to turn off the lights and some big players deciding that alternatives are needed right away, opportunities abound for investors to profit from the bright lights of the LED industry. |
Chemistry World
November 18, 2014
Tim Wogan |
New silicon allotrope could revolutionize solar cells A new, direct band gap allotrope of silicon has been synthesized by researchers in the US. It could potentially revolutionize solar cells and light-emitting devices. |
IEEE Spectrum
December 2012
Richard Stevenson |
Powerful PVs Approach 50 Percent Efficiency Start-up Solar Junction thinks it has the right recipe in a triple-cell scheme |
Chemistry World
November 25, 2015
Jon Cartwright |
Perovskite boosts silicon solar cell efficiency A UK company claims it can boost the efficiency of a silicon solar cell by 20% by adding a layer of the light-sensitive crystal perovskite. |
IEEE Spectrum
February 2005
Singh & Thakur |
Chip Making's Singular Future Beleaguered chip makers are counting on single-wafer manufacturing, which makes ICs on one wafer at a time, to cut costs and get chips to market faster. |
Military & Aerospace Electronics
February 2008 |
Led Makers Face Several Challenges to Cracking the Lighting Market Manufacturers of light-emitting diodes (LEDs) need to make significant improvements in performance to capture profits in applications such as automotive lighting, architectural lighting, and general illumination. |
Fast Company
March 2014
Jon Gertner |
How Philips Altered The Future Of Light Their Innovation Lab is banal so that Philips can gauge the effect of something radical, in this case the impact of new types of LED lights -- lights that turn cerulean blue or sunset pink; lights that dim or brighten wirelessly. |
IEEE Spectrum
March 2013
Joachim N. Burghartz |
Make Way for Flexible Silicon Chips We need them because thin, pliable organic semiconductors are too slow to serve in tomorrow's chips. Seamless integration of computing into everyday objects isn't quite here yet. |
Technology Research News
February 9, 2005 |
Silicon nanocrystal transistor shines A nanocrystal field-effect light-emitting device (FELED) could be used to integrate light sources on computer chips. This would allow the light sources and control circuits of display and communications device to be fabricated together, making for a faster, cheaper manufacturing process. |
Chemistry World
December 15, 2006
Simon Hadlington |
Electronics go on a Bender The prospect of low-cost, efficient electronic circuits being applied to flexible substrates has moved a step closer with two pieces of research reported by US scientists. |
Chemistry World
December 8, 2014
Tim Wogan |
Designing blue organic LEDs from scratch A new, highly efficient fluorescent material for blue organic LEDs that is completely free of metals has been developed by researchers in Japan. |
Chemistry World
February 14, 2010
Simon Hadlington |
Efficient solar cells from silicon wires US researchers have designed a new silicon-based solar cell which uses 100 times less silicon than conventional photovoltaic devices. |
The Motley Fool
October 27, 2010
Anders Bylund |
No Longer a Skeptic of Silicon Image Like it or not, Silicon Image and its consumer-unfriendly technologies are here to stay. |
Technology Research News
October 22, 2003
Eric Smalley |
Nanowires make flexible circuits Nanowires might one day be used to make microscopic machines. But before then they could help liberate computer circuits from the rigid, expensive confines of silicon chips. A process that makes thin films from semiconductor nanowires improves the prospects for plastic electronics and electronic paper. |
IEEE Spectrum
September 2008
Peide D. Ye |
Beyond Silicon's Elemental Logic In the quest for speed, key parts of micro-processors may soon be made of gallium arsenide or other III-V semiconductors |
Technology Research News
February 9, 2005 |
All-silicon chip laser demoed Researchers from Intel have moved a step forward in the push to meld lasers and silicon chips, which could eventually be used in portable biological and chemical sensors, to amplify communications signals, and to convert light to different wavelengths. |
Entrepreneur
April 2007
Amanda C. Kooser |
In the Spotlight Up-and-coming energy-efficient lighting will save your business some bucks -- and it's better for the environment, too. |
IEEE Spectrum
February 2005
Alexander Hellemans |
Strange Bedfellows Hybrid microcircuits, incorporating the desirable properties of the III-V compounds with those of cheap and ubiquitous silicon substrates, might soon find an important niche in electronics after all. |
Popular Mechanics
May 2007
Emily Masamitsu |
The Best Compact Fluorescent Light Bulbs: PM Lab Test When it comes to illuminating your home, brightness isn't everything. |
