Sentences with phrase «based transistor»
Here we are manufacturing flexible ePaper displays in different sizes and form factors by combining ePaper technology with our leading organic - based transistor matrix.
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IBM has figured out how to build a graphene - based transistor on an integrated circuit geared for wireless communication purposes, not for computing.
«The carbon nanotube transistor carries over four times the electrical current density of the best similarly scaled silicon - based transistor,» Franklin says.
Addressing these challenges, Jiangwei Liu, from Japan's National Institute for Materials Sciences, and his colleagues describe new work developing diamond - based transistors this week in the journal Applied Physics Letters, from AIP Publishing.
«Silicon - based transistors often suffer from high switching loss during power transmission and fail when exposed to extremely high temperatures or levels of radiation,» Liu said.
In addition, these carbon materials can be made smaller than silicon - based transistors, which are nearing their size limit due to silicon's limited material properties.
Javey's group built a relatively large pad, seven centimeters on a side, comprising 342 individual sensor pixels with nanowire - based transistors.
The research also shows that high - performance, graphene - based transistors can be produced at low cost using standard semiconductor manufacturing processes, Lin said.
The prototype is quite large - almost A4 in size and is made from over 1.2 million plastic - based transistors.
Not exact matches
Linked together in various ways, transistors can form circuits that are the basis of every type of digital logic, right up to the CPUs that power our modern PCs and servers.
It was the CSR program that earlier this year unveiled a breakthrough computer chip based on 5 nanometer architecture with the smallest transistors ever created.
Building them in 3D is critical if they are to rival the density of transistor - based designs.
In October, IBM announced they fit 10,000 carbon nanotube transistors onto a single chip, bringing nanotube - based computers closer to reality.
High - power gallium nitride - based high electron mobility transistors (HEMTs) are appealing in this regard because they have the potential to replace bulkier, less efficient transistors, and are also more tolerant of the harsh radiation environment of space.
Natelson's research involves complicated electron flow through single - molecule transistors, as well as organic semiconductors — carbon - based materials that are intended to replace silicon transistors in some electronic devices.
The researchers engineered their transistor's base with microscopic pockets called quantum wells, which trap the electrons and release them as laser light.
But the unreliability of silicon transistors smaller than about 10 nanometers means the pace of progress in silicon - based computing will soon slow.
Living systems achieve this functionality with their own version of electronics based on lipid membranes and ion channels and pumps, which act as a kind of «biological transistor.»
A team working on electronics for a space - based camera has tested ordinary transistors at ultra-low temperatures, and they passed with flying colours
«Our design incorporates conventional silicon transistor switches to «turn on» operations between qubits in a vast two - dimensional array, using a grid - based «word» and «bit» select protocol similar to that used to select bits in a conventional computer memory chip,» he added.
Based on graphene field - effect transistors, the flexible devices open up new possibilities for the development of functional implants and interfaces.
For example, we can analyze the transistors based upon their activity during various games (left) or which transistors are necessary for a given game to function.
A surge of research in the last few years on the physics of controlling the flow of heat packets has yielded designs for heat - based diodes, transistors and logic gates that perform AND, OR and NOT operations.
UNIST announced a method for the mass production of boron / nitrogen co-doped graphene nanoplatelets, which led to the fabrication of a graphene - based field - effect transistor (FET) with semiconducting nature.
Various methods of making graphene - based field effect transistors (FETs) have been exploited, including doping graphene tailoring graphene - like a nanoribbon, and using boron nitride as a support.
«Graphene - based field - effect transistor with semiconducting nature opens up practical use in electronics.»
Henning Sirringhaus of Cambridge and his colleagues describe in Science how they fashioned this polymer into an organic transistor and used it to drive a conventional polymer - based LED built directly on top.
The researchers are currently experimenting with carbon - based self - healing composites and self - healing transistors.
The current switching was found to be due to the transistor base operation shift between stimulated and spontaneous electron - hole recombination process at the base - quantum - well.
Prior to this work, quantum - wells were incorporated near the collector in the base of a III - V heterojunction bipolar transistor, resulting in a heavily reduced radiative spontaneous recombination lifetime of the device.
Almost all modern gadgets — computers, cellphones, games consoles, cars, refrigerators, ovens — contain memory chips based on the transistor, whose operation relies on the quantum mechanics of semiconductors.
The researchers developed an immunological assay based on floating gate transistors.
In traditional, silicon - based computers, transistors can not exploit this phenomenon.
To overcome the drawbacks of single - walled carbon nanotube field - effect transistors and improve their performance, the researchers deposited PVDF - TrFE on the top of self - fabricated single - walled carbon nanotube transistors by inkjet printing, a low - cost, solution based deposition process with good spatial resolution.
The circuits are based on two innovative transistor technologies developed and manufactured by the project partner Fraunhofer IAF.
Built into the receiver are low - noise amplifiers on the basis of high - speed transistors using indium - gallium - arsenide - semiconductor layers with very high electron mobility.
By replacing the bulky switches with smaller, cooler - running transistors, Cocconi came up with a new, digital - chip - based inverter package that tipped the scales at a mere 60 pounds.
The result is a hundredfold increase of the spin signal, big enough to be used in real life applications, such as new spin transistors and spin - based logic.
The researchers» latest photonic transistor design is based on prevalent semiconductor technology and offers attractive attributes of high switching gain, low switching power and high operating speed.
As a result, the team designed a new type of transistor — with the concept published in the journal Applied Physics Letters — that could open new routes for graphene - based high - speed electronic and optoelectronic devices.
On page 314 of this issue, Tee et al. (3) report a Digital Tactile System («DiTact») based on a low - power flexible organic transistor circuit that transduces pressure stimuli into oscillating signals like those generated by skin mechanoreceptors.
We need better performing transistors as we continue down - scaling, and transistors based on silicon won't give us improvements anymore,» said Heinz Schmid, a researcher with IBM Research GmbH at Zurich Research Laboratory in Switzerland and the lead author on the paper.
A separate group at Stanford University based their sensor technology on transistors incorporating a rubber layer patterned with micron - scale raised structures such as pyramids or pillars.
Such materials may provide insight into quantum physics and have possible applications in creating transistors based on the spin of particles rather than their charge.
These devices would replace transformers with transistor - based electronics, enabling next - generation power electronics by providing switching speeds 10 times faster than the current state - of - the - art passive components.
The CMOT project aims to tailor and develop solution based metal oxide thin - film transistors (MOTFTs) with graphene electrodes for the field of flexible, low - cost electronics.
An international team of scientists has discovered a new route to ultra-low-power transistors using a graphene - based composite material.
Transistor uses a clever hybrid of real - time and turn - based combat, allowing you to mash buttons or carefully queue up a sequence of attacks depending on what best suits the situation.
When RCA sneered at transistor radios, Sony captured the audio market by first putting out tinny pocket transistors for teenagers, then expanded its base with steady technological improvement.
In this case the current flows from the base of the IMRC control transistor to the PCM.