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IEEE Spectrum
February 2012
Sung & Lee |
Graphene: The Ultimate Switch Graphene could replace the transistor with switches that steer electrons just like beams of light   |
IEEE Spectrum
April 2012
Neil Savage |
Graphene's New Rival Molybdenum disulfide helps graphene transistors work better -- and it makes good nanocircuits on its own, too |
IEEE Spectrum
November 2010
Sinitskii & Tour |
Graphene Electronics, Unzipped By unrolling tiny carbon tubes, you can produce superthin sheets with truly extraordinary electronic properties |
Chemistry World
October 19, 2011
Kate McAlpine |
Ironing Out the Wrinkles in Graphene Ribbon Fabrication Building graphene on a wrinkled surface allows researchers to cut out parallel graphene nanoribbons. |
IEEE Spectrum
August 2008
Neil Savage |
Graphene Could Make Nonvolatile Molecular Memory European researchers build graphene-based switches |
Chemistry World
September 29, 2015
Jon Cartwright |
Graphene band gap heralds new electronics Scientists in the US and France have produced graphene with a record high band gap of half an electronvolt (0.5 eV), which they claim is sufficient to produce useful graphene transistors. |
Chemistry World
June 10, 2009
Jon Cartwright |
'Bilayer' graphene shows tunable bandgap Since its discovery in 2004, the carbon-based material known as graphene has revealed a stream of attractive properties. |
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. |
Chemistry World
February 28, 2007
Richard Van Noorden |
First Graphene Transistors May Herald Future of Electronic Chips Researchers claim to have created the world's first practical transistors cut from ribbons of graphene, a single layer of carbon atoms. |
IEEE Spectrum
April 2012
Liu et al. |
MEMS Switches for Low-Power Logic A modern twist on a trusted old technology -- the electromechanical relay -- could lead to ultralow-power chips |
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. |
Industrial Physicist
Avouris & Appenzeller |
Electronics and Optoelectronics with Carbon Nanotubes Evaluating the potential of carbon nanotubes as the basis of a future nanoelectronics technology. |
Chemistry World
February 13, 2011
James Urquhart |
Guiding electrons through graphene US researchers have created a graphene-based device that guides electrons through the material in the same way an optical fiber guides light, using electrical gates. |
Chemistry World
January 23, 2014
Andy Extance |
Phosphorene discovery positively impacts 2D electronics US researchers have made phosphorus into an analog of graphene, dubbed phosphorene, allowing practical electronic devices made from such two-dimensional materials. |
Chemistry World
November 2011
Philip Ball |
Column: The Crucible Growing graphene by CVD might benefit from an initial injection of hexagonality to start off on the right footing. |
IEEE Spectrum
May 2011
Keane & Kim |
Transistor Aging Measuring the degradation of microprocessors is tricky. Doing it better would unleash more processing power. |
IEEE Spectrum
November 2007
Sarah Adee |
Transistors Go Vertical The semiconductor industry fights silicon sprawl by building up, not out. Today's CMOS transistor is planar, but chip makers are exploring more power-efficient three-dimensional structures as well as a planar structure with two gates. |
IEEE Spectrum
February 2006
Holonyak & Feng |
The Transistor Laser Ultrafast transistors that output optical and electrical signals open a new computing frontier. |
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. |
IEEE Spectrum
April 2005
Linda Geppert |
Power to the Molecules A "crossbar latch" supplies the missing piece for a nanosize alternative to the transistor. Now, researchers at Hewlett-Packard plan to knit them into a huge circuit, hoping to put the technology on the market in about 10 years. |
IEEE Spectrum
July 2012
Miguel Miranda |
The Threat of Semiconductor Variability As transistors shrink, the problem of chip variability grows |
Chemistry World
August 29, 2012
James Urquhart |
Graphene--boron nitride stitching to sew up electronics The race to create ultrathin, transparent and flexible electronic devices using graphene -- the most conductive material known to exist -- has a promising new contender. |
Chemistry World
March 27, 2008
Kira Welter |
Silicon Circuits do the Twist Silicon circuits that can be bent, stretched and twisted without breaking or losing their electronic properties have been developed by US scientists. |
IEEE Spectrum
February 2013
Rachel Courtland |
Graphene Goes the Distance in Spintronics Experiments push electron-spin signals to record lengths |
Chemistry World
February 6, 2014
James Urquhart |
Graphene ribbons exceed theoretical conduction limit Researchers in the US and Europe have observed exceptional electron transport in graphene nanoribbons, which actually exceeds theoretical predictions for perfect graphene. |
Chemistry World
November 12, 2013
Michael Parkin |
Patterning graphene onto complex surfaces Graphene could find use in next-generation flexible electronic devices thanks to scientists in Taiwan and the US who have developed a low cost and scalable method to pattern graphene onto 3D surfaces. |
Chemistry World
July 3, 2012
Simon Perks |
Ultrafast transistors created in a vacuum Scientists at the University of Pittsburgh, US, have come up with a new type of transistor that uses a vacuum to conduct electrons a hundred times faster than the conventional solid-state version. |
Scientific American
February 2009
Steven Ashley |
Graphene Electronics Inches Closer to Mass Production These carbon nanosheets are considered the future of smaller, faster and cheaper electronics |
Chemistry World
August 31, 2011
Josh Howgego |
Graphene memorizes data in a flash Graphene has long been tipped as the material which will eventually replace silicon semiconductors in electronics. Compared with competitor materials graphene should be cheaper, more robust and highly efficient. |
Home Toys
February 2005
Mike Pontelle |
Differential "Pure Balance" Amplifier Design A truly differential drive amplifier consists of two complete amplifiers for each channel: one positive amplifier and one negative amplifier. |
Chemistry World
June 27, 2013
Ian Randall |
Molecular transistor for cheaper, greener electronics Chinese and Danish scientists have placed a transistor made from a single molecular monolayer onto an electronic chip. The new chip harnesses graphene oxide as a transparent electrode so that light can be used to switch the transistor. |
Chemistry World
January 29, 2009
James Urquhart |
Graphene to graphane by chemical conversion An international research team have successfully converted graphene - sheets of carbon just a single layer of atoms thick - into its hydrogenated equivalent, graphane. |
InternetNews
December 13, 2007
Andy Patrizio |
Northrop Grumman Creates One-Terahertz Transistor It won't find its way into a CPU anytime soon, but Northrop Grumman's new transistor could make for some interesting wireless devices. |
Chemistry World
September 8, 2011
Jon Cartwright |
Wonder material not so wonderful Contrary to the widely held view, chemists think graphene electrodes are mostly ineffective at transferring electrons, implying that graphene is a poor choice for sensing applications. |
Chemistry World
February 11, 2015
Matthew Gunther |
Silicene 'sandwich' transistor a delectable prospect The world's first one-atom-thick silicon transistor has been made by scientists in the US. |
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. |
InternetNews
December 13, 2004
Michael Singer |
Chipmakers Advance Transistor Technology IBM and AMD have devised a new silicon transistor technology they claim will boost the speeds of single- and dual-core chips. |
Chemistry World
September 11, 2014
Emma Stoye |
First flexible graphene display paves the way for folding electronics The first flexible display device based on graphene has been unveiled by scientists in the UK, who say it is the first step on the road towards next generation gadgets that can be folded, rolled or crumpled up without cracking the screen. |
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. |
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
March 23, 2005 |
Layers promise cheap circuits The challenge is making organic transistors that work well electronically. |
IEEE Spectrum
November 2007
Samuel K. Moore |
Intel 45-Nanometer Penryn Processors Arrive Penryn chips are the result of the first fundamental redesign of the CMOS transistor |
Chemistry World
July 8, 2011
Yuandi Li |
Loudspeakers in your window Korean scientists have used graphene sheets to make a transparent and lightweight loudspeaker which, they say, can be attached to windows and computer screens. |
BusinessWeek
September 23, 2010
Oliver Staley |
Innovator: Walt de Herr Smaller, power-hungry processors push the limits of silicon. Physicist Walt de Heer thinks nanotechnology can provide a solution. |
Chemistry World
June 19, 2015 |
Graphene beyond the hype For the past 10 years, graphene has popped up in many headlines. Emma Stoye looks at whether current progress matches up to the promises. |
IEEE Spectrum
April 2009
Glenn Zorpette |
Hands-On Project: Low-Cost, High-End Class-D Amplifier Build a sweet-sounding class-D amplifier for $500 |
Chemistry World
February 2, 2015
Tim Wogan |
LEDs slim down with atom thick materials Heterostructures containing mixtures of atom thick layers have been used to create LEDs |
Chemistry World
August 13, 2012
Hayley Birch |
Graphene reactions driven by substrate not reactant In chemical reactions, the reactants determine the level of reactivity. Not for graphene though -- the one-atom-thick sheets of carbon can react vigorously or barely at all to the same chemicals, depending on the substrate they're sitting on. |
Chemistry World
June 19, 2009
Lewis Brindley |
Cutting graphene to ribbons American researchers have used nickel nanoparticles as 'atomic-scale scissors' to cutgraphene sheets into useful pieces. |
Chemistry World
April 3, 2014
Tim Wogan |
Growing great graphene on germanium Macroscopic films of monolayer, single crystalline graphene free of the defects that dog other production methods have been grown on germanium. |
