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Technology Research News April 7, 2004 Eric Smalley	Angle speeds plastic transistor Going with the flow is a good way to pick up speed, particularly for plastic transistors. Rotating the crystal 180 degrees can change the transistor's performance by as much as 3.5 times.
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 November 19, 2003	Plastic display circuit shines Researchers from the University of Tokyo have taken a step forward by fabricating on a glass surface a circuit that contains an organic light-emitting diode and an organic thin-film transistor. The diode was bright enough to be used in a display, according to the researchers.
Chemistry World April 28, 2011 Mike Brown	Carbon nanotubes in large panel displays US researchers have incorporated carbon nanotubes into organic light-emitting transistors to create devices that rival the performance of their silicon counterparts.
Technology Research News December 17, 2003	Organic transistors get small Researchers from Cornell University have shown that it is possible to fabricate useful organic thin film transistors that have a channel length as small as 30 nanometers. The smaller the channel, the faster the transistor. Previously, organic TFT channel lengths were limited to about 100 nm.
Technology Research News March 23, 2005	Layers promise cheap circuits The challenge is making organic transistors that work well electronically.
Chemistry World November 29, 2011 Kate McAlpine	Print quality nanotubes control LED switching Researchers in California have developed a way to print transistors made of carbon nanotubes and have used them to turn an organic light emitting diode on and off.
Technology Research News December 3, 2003	Carbon boosts plastic circuits Researchers from the California Institute of Technology have devised an inexpensive way to add better-conducting organic source and drain electrodes to organic thin-film transistors.
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.
Military & Aerospace Electronics February 2008	Organic Transistor and Memory Market to Reach $21.6 Billion by 2015 The growing demand for flexible, large-area electronic circuitry from packaging, displays, smartcards, sensors, and other sectors will drive the organic transistor and memory market to $21.6 billion by 2015
Chemistry World December 10, 2009 Simon Hadlington	Flexible organic flash memory Researchers have succeeded in making an elusive component of organic electronics: a flash memory transistor that can be incorporated into a thin, flexible plastic sheet.
Technology Research News November 5, 2003	Process prints silicon circuits Researchers from Princeton University have demonstrated a way to use a flexible stamp to print thin-film transistors. The researchers' eventual goal is to directly print electronics on flexible surfaces.
IEEE Spectrum October 2007 Bohr et al.	The High-k Solution Microprocessors coming out this fall are the result of the first big redesign in CMOS transistors since the late 1960s.
Technology Research News January 26, 2005	Metals Speed Clear Circuits Researchers have improved the performance of a new type of transparent transistor. The zinc tin oxide thin-film transistor is transparent, difficult to scratch, and conducts electricity an order of magnitude faster than previous efforts using the same class of material.
Technology Research News March 9, 2005	Nanotubes Boost Molecular Devices Researchers have constructed an extremely small transistor from a pair of single-walled carbon nanotubes and organic molecules. The tiny transistor could eventually be used in ultra-low-power electronics.
Chemistry World May 2, 2010 Mike Brown	OLETs have bright future in electronic lasers Scientists in Italy have developed organic light-emitting transistors that are more efficient light sources than organic light-emitting diodes, and could be used in much sought after electrically pumped organic laser devices.
Technology Research News March 10, 2004 Kimberly Patch	Tiny pumps drive liquid circuits Researchers from the University of Illinois at Urbana-Champaign and Lucent Technologies' Bell Laboratories have combined microfluidics and organic electronics to make a tunable plastic transistor that could enable low-cost methods to drive, control and monitor labs-on-a-chip. The device can also use tiny amounts of fluid to adjust optical devices.
IEEE Spectrum October 2005 Stephen Forrest	The Dawn of Organic Electronics Organic semiconductors are strong candidates for creating flexible, full-color displays and circuits on plastic.
Technology Research News December 29, 2004	Solar Cell Teams Plastic and Carbon Researchers have fabricated an inexpensive, plastic-based solar cell that has the potential to be fairly efficient
Technology Research News December 17, 2003 Eric Smalley	Microfluidics make flat screens A new method for making big, cheap flat screen displays is a bit like making muffins. Pour liquid polymer into microfluidic channels aligned above an array of electrodes, let cure, and you have organic thin film transistors.
IEEE Spectrum December 2007 Joshua J Romero	Japanese Engineers Turn High-k Dielectric Transistor Problem on Its Head One gate metal and two high-k dielectrics could mean a cheaper and easier 45-nanometer CMOS manufacturing process for transistors.
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 23, 2005	Tiny transistors sniff chemicals Researchers from the University of Texas at Austin have found that the chemical sensing abilities of infinitesimally small transistors made from thin films of the organic crystal pentacene are quite different from those of larger transistors made from the same materials.
Technology Research News October 22, 2003	Nanowires boost plastic circuits The move is on to develop flexible, cheap, plastic electronics, but so far organic circuits have fallen far short of silicon chip performance. Researchers from the Hahn-Meitner Institute in Germany have moved the field forward with a new way to make flexible transistors.
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.
Technology Research News June 4, 2003 Kimberly Patch	Plastic transistors go vertical Researchers from the University of Cambridge in England have brought inexpensive, practical organic transistors a step closer to your grocery cart by devising a pair of processes that form small, vertical transistors from layers of printed polymer.
Chemistry World November 27, 2006 Simon Hadlington	Getting the Dope on a Single Atom of Dopant Scientists have successfully probed the electronic and quantum mechanical properties of a single atom of dopant in a silicon transistor. The research could provide important information necessary for the development of quantum computers.
Technology Research News February 26, 2003	Stamp bangs out plastic circuits Today's transistors are etched from silicon wafers in a multi-step process that involves laser beams, chemicals and clean rooms. A simpler process would make for cheaper computer chips, and a gentler process would allow for transistors of different materials.
Chemistry World June 2009 Philip Ball	Column: The crucible Scientific fraud highlights flaws in the way that scientists communicate with each other. Eugenie Samuel Reich's book Plastic fantastic, highlights a key element in what transpires.
Technology Research News March 10, 2004 Eric Smalley	Red wine mends solar cells Researchers from the University of Toledo have found a way to increase energy production using red wine.
Technology Research News June 4, 2003	DNA part makes transistor Researchers from the University of Lecce in Italy and the University of Bologna in Italy have produced a transistor made from a derivative of one of the four bases that make up DNA.
IEEE Spectrum September 2008	Paper Transistor Researchers from Universidade Nova de Lisboa, in Portugal, say they've made a transistor in which paper acts as a functional component.
IEEE Spectrum February 2013 Andrew J. Steckl	Electronics on Paper Paper electronics could pave the way to a new generation of cheap, flexible gadgets
IEEE Spectrum May 2006 Samuel K. Moore	Poky Plastic Perks Up Materials scientists have invented the first polymer semiconductor to perform almost as well as the type of silicon used to drive flat-panel displays.
IEEE Spectrum September 2012 Alfred Poor	Next-Generation Display Technologies New materials will mean brighter, sharper screens
IEEE Spectrum October 2005	Progress Tubular Transistors... An Algorithm You Can Dig... Zooming In on Networks...
Technology Research News July 28, 2004	Process prints silicon on plastic The components could be used in flexible large-area displays, radiofrequency ID tags, sensors, and flexible applications like reconfigurable antennas.
Defense Update Issue 3, 2005	How OLED Works? OLED devices use less power and can be capable of high, higher brightness and fuller color than liquid crystal microdisplays.
IEEE Spectrum May 2011 Keane & Kim	Transistor Aging Measuring the degradation of microprocessors is tricky. Doing it better would unleash more processing power.
Chemistry World February 5, 2007 Lionel Milgrom	Hafnium Oxide Helps Make Chips Smaller and Faster Intel and IBM have announced that they will use dramatically different materials to build smaller, faster transistors for their next generation of chips.
Chemistry World July 24, 2008 Simon Hadlington	Nanotube mesh boosts plastic electronics Circuits on light, flexible surfaces could provide a range of products from paper-thin displays to intelligent food packaging and smart clothing.
IEEE Spectrum May 2006 Harry Goldstein	GaAsing Up Cellphones Gallium arsenide transistors could power tiny, blazingly fast multimedia handsets.
IEEE Spectrum January 2008 Alexander Hellemans	Thermal Transistor: The World's Tiniest Refrigerator Thermal transistors refrigerate one electron at a time and physicists plan to compute with heat.
IEEE Spectrum November 2011 Ahmed & Schuegraf	Transistor Wars Rival architectures face off in a bid to keep Moore's Law alive. In May, Intel announced the most dramatic change to the architecture of the transistor since the device was invented.
IEEE Spectrum December 2007 Michael Riordan	The Silicon Dioxide Solution How physicist Jean Hoerni built the bridge from the transistor to the integrated circuit.
Information Today September 2000	E Ink Agreement with Lucent Will Help Develop Electronic Paper Agreement may accelerate the time when e-books and newspapers resembling flexible plastic sheets will be available for millions of users.
Chemistry World January 21, 2009 Simon Hadlington	Electron-conducting polymer for printed electronics The prospect of powerful electronic circuits made from printable plastics has moved a step closer with the discovery of a cheap, stable organic polymer semiconductor
Chemistry World September 9, 2008 Lewis Brindley	Old but still flexible Semiconductors made from synthetic organic materials are an attractive alternative to silicon as they offer flexibility and simple manufacturing processes.
PC Magazine March 10, 2004 Alfred Poor	Flexible Display Forecast After years of slow but steady progress, momentum is picking up for one of technology's Holy Grails: the flexible plastic display.
Technology Research News February 9, 2005	Nanotubes on plastic speed circuits Many researchers are working to make plastic electronics that are as fast as today's silicon electronic components -- with the promise to enable flexible, inexpensive and very-large area computer screens. One group of researchers has taken a significant step closer to this goal.