| Electronics (108) |  |
| Spintronics (3) | |
| Electronics (108) | |
| Spintronics (3) | |
and alleviate pain with electronics instead of drugs. e need to make these devices as small as possible to more easily implant them deep in the body
The achievement is reported in an article on the cover of the journal Nature. eople have been talking about a new era of carbon nanotube electronics moving beyond siliconsays Subhasish Mitra an electrical engineer
at the heart of digital electronic systems. But a bedeviling array of imperfections in these carbon nanotubes has frustrated long efforts to build complex circuits using CNTS.
For decades progress in electronics has meant shrinking the size of each transistor to pack more transistors on a chip.
leading to smaller faster and as it turned out cheaper electronics. But smaller faster and cheaper has meant also smaller faster and hotter. nergy dissipation of silicon-based systems has been a major concernsays Anantha Chandrakasan head of electrical engineering and computer science at MIT and a world
That s important for the battery and other electronics and sensors. Once the robot can stay aloft on its own,
you probably think about electronics products like televisions and computers. Thanks to its CT and other diagnostic imaging machines and technology, Toshiba has made a name for itself in the healthcare industry, too.
It could even be used instead of silicon in electronics. Byung Hee Hong from Sungkyunkwan University in Suwon, Korea,
But the electrodes are less likely to be used in bendy electronics at least in the short term
In 2008 Dawson and Perreault who directs the Power Electronics Research Group submitted an early concept of the Eta technology then called asymmetrical multilevel outphasing (AMO) to an Innovation Teams
#Spinning out a company has been the best way to validate the technology especially with novel power-electronics hardware Dawson says.
and every drone has different software and electronics, it good for the FAA if all of them had reliable and common hardware and software,
pioneering scientists are working on the seamless marriage between electronics and brain signaling with the potential to transform our understanding of how the brain worksnd how to treat its most devastating diseases.
ultraflexible electronics into the brain and allow them to become fully integrated with the existing biological web of neurons.
Fortunately researchers have pinpointed now the breaking mechanism of several monolayer materials hundreds of times stronger than steel with exotic properties that could revolutionize everything from armor to electronics.
to close the gap between nanowires in an array to make them useful for high-performance electronics applications.
but to be useful for electronics applications, they need to be packed together in dense arrays.
or hobbyist and handy with electronics you get a double-whammy: a free design for a high-tech beehive that can monitor your bees'environment
In this case the microwave-harvesting metamaterial that acts kind of like a solar panel converting microwaves into up to 7. 3 volts of electricity enough to charge small electronics.
ingestible electronics, which can diagnose and monitor a variety of conditions in the GI TRACT; or extended-release drug-delivery systems that could last for weeks
affiliated with the Institute for Basic Science (IBS) Center for Artificial Low Dimensional Electronic systems (CALDES), reported a tunable band gap in BP,
This amalgamation makes it a terrifically attractive material to apply to scientific developments in a wide variety of fields, such as electronics, aerospace and sports.
dramatically exceeding a theoretical limit for electronics, researchers say. These findings could one day lead to super-dense low-power circuits as well as ultra-sensitive biosensors and gas sensors, the investigators added.
The scientists and engineers detailed their findings in the 1 oct. issue of the journal Nature. his transistor represents a major breakthrough in the electronics and semiconductor industry
UCSB Banerjee suggests that potential applications for these new TFETS may include ultra-low-power electronics and computing,
or high performance. hey are desirable for low-power electronics, e says
#Airware Launches Its Commercial Drone Operating system Drones could save businesses big money by doing dull, dirty,
which houses control electronics and the video camera holder. According to the engineers, who published their breakthrough research in the journal HKIE Transactions
Its applications range from medicine, advanced energy, electronics, aerospace design and many others. Despite these groundbreaking characteristics,
the device could have applications in voice-command electronics, medical sensing devices that use waves, like ultrasound,
a 3d printed shell that contains the control electronics, and a placeholder for a wireless video camera.
this new material may be the future for the world of electronics as it could facilitate information transfer.
affiliated with the Institute for Basic Science (IBS) Center for Artificial Low Dimensional Electronic systems (CALDES), reported a tunable band gap in black phosphorus (BP),
This amalgamation makes it a terrifically attractive material to apply to scientific developments in a wide variety of fields, such as electronics, aerospace and sports.
Vermont scientists invent new approach in quest for organic solar panels and flexible electronics Abstract: TV screens that roll up.
A new generation of organic semiconductors may allow these kinds of flexible electronics to be manufactured at low cost,
reported Sept. 14 in the journal Nature Communications, will aid in the hunt for alternatives to traditional silicon-based electronics.
An INRS team is generating photon pairs with complex quantum states on a chip compatible with electronic systems September 14th,
2015flexible Electronics SLAC's ultrafast'electron camera'visualizes ripples in 2-D material: Understanding motions of thin layers may help design solar cells, electronics and catalysts of the future September 10th, 2015realizing carbon nanotube integrated circuits:
Encapsulation layers keep carbon nanotube transistors stable in open air September 8th, 2015new nanomaterial maintains conductivity in three dimensions:
An INRS team is generating photon pairs with complex quantum states on a chip compatible with electronic systems September 14th,
An INRS team is generating photon pairs with complex quantum states on a chip compatible with electronic systems September 14th,
An INRS team is generating photon pairs with complex quantum states on a chip compatible with electronic systems September 14th, 2015interviews/Book reviews/Essays/Reports/Podcasts/Journals/White papers Pillared graphene gains strength:
Understanding motions of thin layers may help design solar cells, electronics and catalysts of the future September 10th,
Understanding motions of thin layers may help design solar cells, electronics and catalysts of the future September 10th, 2015hybrid solar cell converts both light and heat from sun's rays into electricity (video) September 9th,
Vermont scientists invent new approach in quest for organic solar panels and flexible electronics September 14th, 2015pillared graphene gains strength:
Vermont scientists invent new approach in quest for organic solar panels and flexible electronics September 14th, 2015pillared graphene gains strength:
An INRS team is generating photon pairs with complex quantum states on a chip compatible with electronic systems September 14th,
Vermont scientists invent new approach in quest for organic solar panels and flexible electronics September 14th, 2015pillared graphene gains strength:
An INRS team is generating photon pairs with complex quantum states on a chip compatible with electronic systems September 14th,
Vermont scientists invent new approach in quest for organic solar panels and flexible electronics September 14th, 2015pillared graphene gains strength:
Vermont scientists invent new approach in quest for organic solar panels and flexible electronics September 14th, 2015pillared graphene gains strength:
Understanding motions of thin layers may help design solar cells, electronics and catalysts of the future September 10th, 201 0
affiliated with the Institute for Basic Science's (IBS) Center for Artificial Low Dimensional Electronic systems (CALDES), reported a tunable band gap in BP,
The research team operating out of Pohang University of Science and Technology, affiliated with the Institute for Basic Science's Center for Artificial Low Dimensional Electronic systems
This amalgamation makes it a terrifically attractive material to apply to scientific developments in a wide variety of fields, such as electronics, aerospace and sports.
as well as Allen, who at the time was director of the Institute for Electronics and Nanotechnology. opefully,
According to financial reports, the global market for graphene reached $9 million in 2014 with most sales in the semiconductor, electronics, battery, energy,
According to financial reports, the global market for graphene reached $9 million in 2014 with most sales in the semiconductor, electronics, battery, energy,
so in a promising future development in electronics for novel computer technology. The measurements the researchers used to reveal the magnetic orientation of the nanomagnets,
is a simple 3d-printed device that can pinpoint the origin of a sound without the need for any sophisticated electronics.
#Gallium nitride and Sol-Gel Transistors to Change Electronics and Energy consumption August 5, 2015-Graphene is seen as a material that is altering our technical world.
In the past few weeks two others have joined the new materials world of electronics. One is gallium nitride (Gan),
The Gallium nitride Energy revolution is About to Happencambridge Electronics, Inc. CEI), whose motto is"Dream it.
and other electronics will produce $900 billion in energy savings annually by 2025. That's impressive.
In the past few weeks two others have joined the new materials world of electronics. One is gallium nitride (Gan),
The ability to mold inorganic nanoparticles out of materials such as gold and silver in precisely designed 3d shapes is a significant breakthrough that has the potential to advance laser technology microscopy solar cells electronics environmental testing disease
not including the robot's chassis, motor, pump and electronics.""Purchased abroad, it very likely that would cost you some $20, 000 all told.
a former electronics engineer with IBM and Sun who got the idea for a water-monitoring system
Gomes and Mclamore are moving on to refining the electronics to something that can be handheld and easily used.
Its highly versatile nature makes it applicable for use in numerous electronics gadgets such as wearables, flexible displays and other sophisticated electronic devices."
so instead of adding electronics to fabrics, he converts the fabric into an electronic component. reating transistors
and other components using cotton fibers brings a new perspective to the seamless integration of electronics
#Scientists made a major breakthrough in 3d-printed electronics that will keep you from ever drinking spoiled milk again Researchers have used 3d printing to develop a sensor that can be placed inside a carton of milk to detect
Sung-Yueh Wuuc Berkeley engineers created a mart capusing 3d-printed plastic with embedded electronics to wirelessly monitor the freshness of milk.
#Researchers develop a semiconductor chip made almost entirely of wood Portable electronics-typically made of nonrenewable,
and computer engineering professor Zhenqiang"Jack"Ma, described the new device in a paper published May 26, 2015 by the journal Nature Communications("High-performance green flexible electronics based on biodegradable
"Working with Shaoqin"Sarah"Gong, a UW-Madison professor of biomedical engineering, Cai's group addressed two key barriers to using wood-derived materials in an electronics setting:
However, gallium arsenide can be environmentally toxic, particularly in the massive quantities of discarded wireless electronics.
"But flexible electronics are the future, and we think we're going to be well ahead of the curve
2015discovery paves way for new kinds of superconducting electronics June 22nd, 2015researchers first to show that Saharan silver ants can control electromagnetic waves over an extremely broad range of the electromagnetic spectrumfindings may lead to biologically inspired coatings for passive radiative cooling of objects June 19th,
Graphene's unique optical, mechanical and electrical properties have lead to the one-atom-thick form of carbon being heralded as the next generation material for faster, smaller, cheaper and less power-hungry electronics."
Printing electronics onto cheap, flexible materials like paper and plastic could mean that wireless technology,
as well as sensors and wearable electronics s
#Hematite're-growth'smoothes rough edges for clean energy harvest (Nanowerk News) Finding an efficient solar water splitting method to mine electron-rich hydrogen for clean
In particular, finding effective ways to remove heat energy is vital to the continued miniaturization of electronics.
so instead of adding electronics to fabrics, he converts the fabric into an electronic component. Marcia Silva da Pinto, postdoctoral researcher, works on growing metal organic frameworks onto cotton samples to create a filtration system capable of capturing toxic gas,
Creating transistors and other components using cotton fibers brings a new perspective to the seamless integration of electronics
Graphene's unique optical, mechanical and electrical properties have lead to the one-atom-thick form of carbon being heralded as the next generation material for faster, smaller, cheaper and less power-hungry electronics."
ingestible electronics, which can diagnose and monitor a variety of conditions in the GI TRACT; or extended-release drug-delivery systems that could last for weeks or months after a single administration.
Sections of this structure, referred to as nanographenes or polycyclic aromatic hydrocarbons (PAHS), play an integral role in organic electronics.
Society tends to treat electronics as disposable commodities. But unlike a glass bottle that gets recycled or food that hits a compost heap,
but there's still a ton of electronics (well, a few million tons) headed for the landfill.
By changing the materials that we build electronics with, Ma, and others like him (another team is building dissolvable circuits) are trying to deal with the e waste problem at the start--long before your phone gets stepped on or your computer crashes.
Currently the scientists in Dr. Dan Buca's group at Julich are working on linking optics and electronics even more closely.
#Biodegradable, flexible silicon transistors Now researchers from the University of Wisconsin-Madison have come up with a new solution to alleviate the environmental burden of discarded electronics.
"Nowadays, the majority of portable electronics are built on nonrenewable, non-biodegradable materials such as silicon wafers,
All these superior properties make cellulose nanofibril an outstanding candidate for making portable green electronics.
But to make portable electronics, the biodegradable transistor needed to be able to operate at microwave frequencies,
"Biodegradable electronics provide a new solution for environmental problems brought by consumers'pursuit of quickly upgraded portable devices,
collaboration could lead to biodegradable computer chips Portable electronics typically made of nonrenewable, non-biodegradable and potentially toxic materials are discarded at an alarming rate in consumerspursuit of the next best electronic gadget.
Working with Shaoqin arahgong, a UW-Madison professor of biomedical engineering, Cai group addressed two key barriers to using wood-derived materials in an electronics setting:
However, gallium arsenide can be environmentally toxic, particularly in the massive quantities of discarded wireless electronics.
he says. ut flexible electronics are the future, and we think wee going to be well ahead of the curve. t
#Single Atom Building blocks For Future Electronics The material is called a silicene, a layer of silicon single atoms arranged in a honeycomb pattern that was fabricated first by researchers at UOW Institute for Superconducting and Electronic Materials (ISEM) and their partners in Europe and China.
so instead of adding electronics to fabrics, he converts the fabric into an electronic component. reating transistors
and other components using cotton fibers brings a new perspective to the seamless integration of electronics
ingestible electronics, which can diagnose and monitor a variety of conditions in the GI TRACT; or extended-release drug-delivery systems that could last for weeks
your next phone could be made of wood Engineers hunting for a way to make electronics more sustainable have hit on a novel invention-a semiconductor chip made almost entirely out of wood.
But flexible electronics are the future, and we think we're going to be well ahead of the curve
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