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IEEE Spectrum August 2008 Neil Savage	Cheaper LEDs Possible by Growing Gallium Nitride on Silicon Engineers take a step toward cheaper solid-state lighting.
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 June 2011 Richard Stevenson	Silicon Is Key to Quest for $5 LED Lightbulb Bridgelux process grows gallium-nitride on high-volume silicon wafers
IEEE Spectrum January 2010 Richard Stevenson	Winner: NanoGaN's Crystal Method NanoGaN's substrates will grow better, cheaper lasers
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.
IndustryWeek September 1, 2008 Jill Jusko	Low-Cost LED Lighting Advances Breakthrough by Purdue University could help reduce energy consumption.
Chemistry World May 9, 2012 Jon Cartwright	Cracks break the rules of nanofabrication When it comes to nanofabrication, cracks are usually best avoided. But now researchers in South Korea have discovered that cracks aren't always bad - if harnessed, they can be used to make controlled patterns.
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
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 2012 Alfred Poor	Next-Generation Display Technologies New materials will mean brighter, sharper screens
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.
IEEE Spectrum February 2012 Neil Savage	Nanostructures Catch the Light Razor-thin solar cells could be cheap but need a little help holding light in
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.
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.
IEEE Spectrum March 2007 Michael Riordan	A New Blue Laser Two groups have just announced a new kind of solid-state laser that emits bright blue-violet light, raising hopes of getting green.
IEEE Spectrum May 2011 Wager & Hoffman	Thin, Fast, and Flexible Semiconductors Amorphous oxide semiconductors promise to make flat-panel displays faster and sharper than today's silicon standby.
Technology Research News December 15, 2004	See-Through Circuits Speed up Researchers have moved transparent semiconductors forward with an indium gallium zinc oxide mixture that can be deposited on plastic, is transparent, and potentially performs one to three orders of magnitude better than today's plastic transistors.
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
Chemistry World November 1, 2007 Jonathan Edwards	Gold Sets Nanowires Straight Mass-producing nanodevices may become a reality now that scientists in the US have demonstrated a new way of making millions of tiny electronic components at once.
Technology Research News September 8, 2004	Alumina Glass Made in Bulk Researchers have found a way to make non-silica glasses in bulk. The bulk glass material could be produced for practical uses like kitchen tiles within a few years; more complicated optical devices will take longer.
IEEE Spectrum March 2010 Richard Stevenson	Lasers Get the Green Light Compact green-light sources could slash the cost of laser TV
Chemistry World June 15, 2006 Jon Evans	Through a CO2 Glass Darkly European researchers may have found a new way to capture and store CO2, by transforming it into a solid, glass-like substance.
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.
IEEE Spectrum October 2006 Brian R. Santo	Acronym Addiction When you live on the cutting edge of technology, there are, literally, no words to describe it. Instead we have acronyms. Lots and lots of acronyms. ABT... BEOL... CSP... etc.
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.
Chemistry World September 19, 2014 Hayley Simon	Dragonfly crystals on a silicon wafer Individual, dragonfly-shaped crystals have been grown on the surface of a silicon wafer dipped slowly into a solution of dotriacontane -- a 32 carbon alkane.
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 2007 Philip Ball	The Crucible Feel free to make photovoltaics better. But don't forget they have to be cheaper, too.
Technology Research News July 30, 2003	Crystal cracks nurture nanowires Researchers from the University of Tokyo in Japan have devised a way to form titanium nanowires within an intentionally flawed sapphire.
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.
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.
Chemistry World March 7, 2007 Lionel Milgrom	Diatoms Transformed Into Silicon Sensors Materials scientists have found a simple method of converting frustules - the intricate silica-based skeletons of common single celled photosynthetic organisms called diatoms - into pure silicon structures with many applications.
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.
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).
Chemistry World May 28, 2008 Lewis Brindley	Changing the face of a water splitting catalyst Australian chemists have grown crystals of the water-splitting catalyst titanium dioxide that are many times more reactive than usual.
National Defense June 2011 Grace V. Jean	New Semiconductor Readied for Mass Production Researchers have been developing gallium nitride semiconductors for nearly two decades.
Chemistry World August 10, 2011 Kate McAlpine	Sapphire scaffold builds flexoelectric film from the ground up Researchers in South Korea and the UK have produced a film that makes electricity when you bend it - and crucially it is over a million times better at this than other crystalline solids with the same properties.
Chemistry World November 18, 2015 Nelly Berg	A bright future for silicon solar cell recycling South Korean scientists have developed a sustainable process to reclaim silicon wafers from old solar panels and used the salvaged silicon to build new solar cells.
Chemistry World February 7, 2014 Emma Stoye	Crystal ribbons grow on a curve Colleagues at Harvard University in the US investigated the effects of elastic stress on crystals, which is increased by growing them on a curved surface rather than a flat one.
Chemistry World June 2, 2010 Lewis Brindley	Reactions in a crystal Crystals that can alter their composition without changing the structure of their solid lattice have been developed by US researchers.
PC Magazine March 14, 2007 Dylan Tweney	What's Inside Your Laptop? We reveal the components inside a typical notebook PC and explain where they come from.
Technology Research News August 25, 2004	Method Makes Stronger Steel Researchers have found a way to cast relatively large structures from a type of steel whose atomic structure is amorphous, like glass, rather than the usual orderly crystalline structure of metal.
Geotimes November 2003 Lisa Corathers	Mineral Resource of the Month: Silicon The Silicon Commodity Specialist for the U.S. Geological Survey has compiled this information about silicon, an extremely versatile mineral with many applications in the manufacture of iron and steel, aluminum alloys, chemicals, and electronic microchips.
The Motley Fool August 6, 2010 Michael Kanellos	Suntech Abandons Thin Film, Wafer Experiments The crystalline silicon giant pays out cash. Why fight crystalline?
Geotimes June 2007 Megan Sever	Colossal Crystals Discovered in Cave In one of the largest lead and silver mines in the world, workers discovered what researchers are calling the "cathedral" of giant gypsum crystals about 300 meters below ground.
Military & Aerospace Electronics June 2005 Lee, Hillman & Kim	Industry News: How to Predict Failure Mechanisms in LED and Laser Diodes Optical circuits provide an opportunity for meeting military and avionics performance needs. But predicting the reliability of these products can be difficult for the reliability engineer with little experience in optoelectronic technology. Here's where an engineer can start.
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.