"The researchers, from the Electronics and Telecommunications Research Institute and Konkuk University in the Republic of korea, coated cotton and polyester yarn with a nanoglue called bovine serum albumin (BSA.
This high mobility makes the material an ideal candidate for faster, more energy-efficient electronics. However, the semiconductor industry wants to make circuits start
opening the door to novel opportunities in electronics and optical sensing applications.""I believe that this work will benefit researchers in the area of surface plasmonics by providing a new strategy/design for enhancing the surface enhanced Raman spectroscopy (SERS) detection limit,
as well as Allen, who at the time was director of the Institute for Electronics and Nanotechnology. opefully,
The patented technology is already generating interest from the electronics, automotive and pharmaceutical sectors, where counterfeiting is a serious issue,
Counterfeit electronics are a problem, and counterfeit medication can be downright dangerous, containing the wrong dose or no active ingredient at all.
as do other flexible electronics from the same lab. Those devices, which have been tested in the lab,
those places are often the worst culprits for able tanglebecause of all the electronics already there.
This high mobility makes the material an ideal candidate for faster, more energy-efficient electronics. However, the semiconductor industry wants to make circuits start
"Current electronics are mostly using rigid components which are very uncomfortable to wear on the body
So, we have a much larger input space than current electronics allow for, "he said. The prototype is based on advances in so-called'electronic skin'that allow robots to better sense their environment,
so we can use it for electronics, "explained Weigel. The stickers are attached to the body using a medical-grade adhesive that can be peeled easily off after use without hurting the skin.
which would allow the use of such materials in electronics. he base substances and the orientation of the platelets can be combined as required,
Bao's team has been developing flexible electronics that can bend without breaking. For this project, team members worked with researchers from PARC, a Xerox company,
iskin developers think theye discovered the perfect natural touch surface. urrent electronics are mostly using rigid components
we have a much larger input space than current electronics allow for. The researchers say that iskin could be used as a remote control mechanism for other sorts of digital devices,
#Future electronics based on carbon nanotubes First of all they are tiny--on the atomic scale and perhaps near the physical limit of how small you can shrink a single electronic switch.
But a big barrier to building useful electronics with carbon nanotubes has always been the fact that
One of the biggest problems in modern electronics, however, is that antennas are still quite big and incompatible with electronic circuits
Flexible electronics have come into the market and are enabling new technologies like flexible displays in mobile phone, wearable electronics,
and the Internet of things (Iots). However, is the degree of flexibility enough for most applications? For many flexible devices, elasticity is a very important issue.
Although several researchers have explored diverse stretchable electronics, due to the absence of the appropriate device structures and correspondingly electrodes,
It can open avenues for power supplies in universal wearable and biomedical applications as well as self-powered ultra-stretchable electronics
Nanoparticles have also been tested in the manufacture of magnetic inks and inks that conduct electricity in printed electronics.
The most immediate application of this printing capacity is in wearable electronics as it allows for the production of fast, low-power and flexible transistors at a remarkably low cost.
"and will also realize stretchable--and even edible--electronics
#Frequent genomic alteration is identified in a rare subset of breast cancer Genomic profiling identifies genomic mutations in a gene associated with a rare subset of breast cancer,
His main research interests are power electronics, electric power distribution systems, motor drives and electric power quality.
He is a senior member of the IEEE and member of the Power Electronics and Industry Applications Societies.
or gallium arsenide--the basis of modern electronics--but Cornell scientists are pushing the limits for how thin they can go.
This opens the door to a memory system that can be packed onto a microprocessor, a major step toward the goal of reducing energy dissipation in modern electronics."
"Creating and switching polarity in magnets without an external magnetic field has been a key focus in the field of spintronics.
The overwhelming majority of microchips that exist in electronics now are made from silicon, and they work extremely well.
and the Electronics-Inspired Interdisciplinary Research Institute (EIIRIS) at Toyohashi University of Technology has developed a methodology to temporarily enhance the stiffness of a long,
Drexel University researchers are testing an array of new combinations that may vastly expand the options available to create faster, smaller, more efficient energy storage, advanced electronics and wear-resistant materials.
which will greatly speed up chip-to-chip communication in integrated circuits based on plasmonics rather than electronics.
"In the future, people are going to be wearing more electronics, such as smart watches, fitness trackers and health monitors.
notes Jafari who presented his research at the Institute of Electrical and Electronics Engineers (IEEE) 12th Annual Body Sensor Networks Conference this past June.
he says his team will look to incorporate all of these functions into one wearable device by combining the hardware and reducing the overall size of the required electronics.
#Super-stretchable metallic conductors for flexible electronics Washington state University researchers have discovered how to stretch metal films used in flexible electronics to twice their size without breaking.
The discovery could lead to dramatic improvements and addresses one of the biggest challenges in flexible electronics, an industry still in its infancy with applications such as bendable batteries, robotic skins, wearable monitoring devices and sensors,
and manufacturing the tiny metal connections that go into flexible electronics. The metal has to undergo severe stretching
and periodically bonded it to a plastic layer commonly used in electronics, they were able to stretch the metal film to twice its original length.
"This is a quantum improvement in stretchable electronics and wearable devices,"said Panat. While Panat is excited about the work
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,
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.
Very generally it could be used in spintronics, 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, and therefore the properties of the metamaterial, can only be conducted exclusively at PSI.
and functional materials 3d printing is revolutionizing the production of lightweight structures, soft robots and flexible electronics,
including the electronics, a 3d printer must be able to seamlessly transition from a flexible material that moves with your joints for wearable applications,
and could pave the way for entirely 3d printed wearable devices, soft robots, and electronics. The research was led by Jennifer A. Lewis, the Hansjörg Wyss Professor of Biologically Inspired Engineering at the Harvard John A. Paulson School of engineering and Applied sciences (SEAS) and a Core Faculty member at the Wyss Institute for Biologically Inspired Engineering
These structures may find potential application in flexible electronics, wearable devices, and soft robotics. They also printed reactive materials,
This is a crucial step in creating a new generation of foldable electronics--think a flat-screen television that can be rolled up for easy portability--and implantable medical devices.
flexibility and transparency--all three are needed for foldable electronics--wear out too quickly to be said practical
#Highly flexible and wearable tactile sensor for robotics, electronics and healthcare applications A team of scientists from the National University of Singapore (NUS) Faculty of engineering has developed a wearable liquid-based microfluidic tactile
#Liquid cooling moves onto the chip for denser electronics Using microfluidic passages cut directly into the backsides of production field-programmable gate array (FPGA) devices,
and more powerful integrated electronic systems that would no longer require heat sinks or cooling fans on top of the integrated circuits.
We believe that reliably integrating microfluidic cooling directly on the silicon will be a disruptive technology for a new generation of electronics."
"Future high-performance semiconductor electronics will be increasingly dominated by thermal budget and ability to remove heat. The embedded microfluidic channels provide an intriguing option to remove heat from future microelectronics systems."
and high-power electronics, such as wearable devices, portable power supplies and hybrid and electric vehicles.""Ultimately the goal of this research is to find ways to power current and future technology with efficiency
#New graphene based inks for high-speed manufacturing of printed electronics A low-cost, high-speed method for printing graphene inks using a conventional roll-to-roll printing process,
including inexpensive printed electronics, intelligent packaging and disposable sensors. Developed by researchers at the University of Cambridge in collaboration with Cambridge-based technology company Novalia,
including printed electronics. Although numerous laboratory prototypes have been demonstrated around the world, widespread commercial use of graphene is yet to be realised."
""This method will allow us to put electronic systems into entirely unexpected shapes, "said Chris Jones of Novalia."
who could diversify into the electronics sector.""The UK, and the Cambridge area in particular, has always been strong in the printing sector,
In addition to cheaper printable electronics, this technology opens up potential application areas such as smart packaging and disposable sensors,
which most electronics products are operated at), the researchers observed a gain in sensitivity of more than eightfold over previously reported laboratory results and more than 200 times that of most commercially available sensors.
is a simple 3d printed device that can pinpoint the origin of a sound without the need for any sophisticated electronics.
Earlier today, Japanese electronics maker Sharp revealed a humanoid robot-shaped smartphone that I promise won fit in your skinny jeans. It hard to say if it more phone or robot,
but many times larger than the dimensions of current commercial nanoscale electronics. Plasmonics combines the small size and manufacturability of electronics with the high speeds of optics.
When light waves interact with electrons on a metal surface, strong fields with dimensions far smaller than the wavelength of the original light can be createdlasmons.
light photo-catalysts and ferroelectric materials in electronics. nalogous to the best metallic conductors such as copper or silver where the current is transported by electron, in d-Bismuth oxide
Electronics transmit data to your smartphone The sensors are made from a soft and very stretchy elastomer silicone film that is easy to integrate into textiles.
and transmit the measurement signal via a conductive thread to a wireless electronics unit developed by researchers at Fraunhofer IIS
the electronics are attached to the end of the stocking. Wee planning to relocate them to a small,
There no way around this until a reliable method for cleaning the electronics is developed says Brunner.
a major step toward the goal of reducing energy dissipation in modern electronics. o reduce the power draw
and switching polarity in magnets without an external magnetic field has been a key focus in the field of spintronics.
magnetic and mechanical properties that could be used in electronics and may even have implications for understanding biological systems.
and put some electronics on the device so we could take these measurements without an MRI.
because they have implantable electronics, like pacemakers and defibrillators, he says. ee making these sensors out of materials that are in these kinds of long-term implants,
which could make them lose their superfluid properties. t a complicated experiment, with a lot of laser beams, electronics,
#Scientists find a new way to manufacture graphene nanoribbons for future electronics There is no doubt that graphene is the key to the future of electronics.
However, in order to use graphene in high-performance semiconductor electronics ultra-narrow strips of graphene are needed and scientists have struggled to create them.
in order to make electronics. Image credit: Arnold Research Group and Guisinger Research Group, news. wisc. eduscientists at University of Wisconsin-Madison have discovered now a method to grow these ultra-narrow strips, called nanoribbons, with desirable semiconducting
This discovery is aimed at allowing manufacturers of electronics to develop the next-generation of electronic devices that will have much greater performance.
and so there would be less of a barrier to integrating these really excellent materials into electronics in the futurewhere graphene could be in the future,
although with smooth edges, is far too short for use in electronics. But now scientists found a way to manufacture ultra-narrow nanoribbons with smooth
and heat with such efficiency that it is likely to revolutionize electronics. Image credit: Alexanderalus via Wikimedia, CC BY-SA 3. 0in this process scientists start with methane,
which is needed for future generations of electronics. However, there are still some problems left to solve.
Thin film sensors created using MOF nanoparticles harvested from hybrid gels The team worked with Isis Innovation to patent the technology and Samsung Electronics
#Flexible, biodegradable device can generate power from touch Longstanding concerns about portable electronics include the devicesshort battery life and their contribution to e waste.
Next steps The next step is embed to all the electronics inside the mouth guard so that it can actually be worn.
and electronics to make sure that they are indeed completely biocompatible. The next iteration of the mouth guard is about a year out,
Revealed by a brand new lectron camera, one of the world speediest, this unprecedented level of detail could guide researchers in the development of efficient solar cells, fast and flexible electronics and high-performance chemical catalysts.
Understanding these dynamic ripples could provide crucial clues for the development of next-generation solar cells, electronics and catalysts.
flexible electronics and to encode information in data storage devices. Thin films of Mos2 are also under study as possible catalysts that facilitate chemical reactions.
explains that this novel signaling mechanism produces sufficient change in current to be measured using inexpensive electronics similar to those in the home glucose test meter used by diabetics to check their blood sugar.
explains that this novel signaling mechanism produces sufficient change in current to be measured using inexpensive electronics similar to those in the home glucose test meter used by diabetics to check their blood sugar.
With the anticipated increase in batteries needed for electric vehicles and electronics, a cheaper and sustainable source to replace graphite is needed.
and that can mean smaller, more efficient personal electronics in the near future. Once Kaner and his colleagues found they could guide the tetraaniline solution to grow vertical crystals,
and understand the intrinsic spin of electrons to advance nanoscale electronics is hampered by how hard it is to measure tiny, fast magnetic devices.
An emerging field called spintronics explores the idea of using electron spin to control and store information using very low power.
Spintronics, the subject of the 2007 Nobel prize in Physics, is already impacting traditional electronics, which is based on the control of electron charge rather than spin. irect imaging is really hard to do,
Scientists have been unable to directly image magnetic motion in nanoscale spintronic devices without hugely expensive X-ray sources at national facilities.
#New graphene based inks for high-speed manufacturing of printed electronics A low-cost, high-speed method for printing graphene inks using a conventional roll-to-roll printing process,
including inexpensive printed electronics, intelligent packaging and disposable sensors. Developed by researchers at the University of Cambridge in collaboration with Cambridge-based technology company Novalia,
including printed electronics. Although numerous laboratory prototypes have been demonstrated around the world, widespread commercial use of graphene is yet to be realised. e are pleased to be the first to bring graphene inks close to real-world manufacturing.
and other similar materials. his method will allow us to put electronic systems into entirely unexpected shapes,
who could diversify into the electronics sector. he UK, and the Cambridge area in particular, has always been strong in the printing sector,
In addition to cheaper printable electronics, this technology opens up potential application areas such as smart packaging and disposable sensors,
aims to use electronics in a way that mimics the way neurons process information in organic brains.
Similarly, liquid cooling for high-performance electronics also could be made more efficient by being able to control the rate of bubbling to prevent overheating in hotspots,
especially in the electronics cooling industry to cool hot spots. Such strategies can be applied effectively through simple electric controls using the new technology. g
#Engineers created a new flexible phototransistor with impressive properties Phototransistors are rather important part of modern electronics.
showing how rapidly electronics are developing these days. Even such small and invisible parts are getting more and more advanced
#Paralyzed Man Arm Wired to Receive Brain signals Scientists at Case Western Reserve University in Ohio say theye used electronics to get around a paralyzed man spinal injury,
is a step toward a wireless system able to transmit brain signals through the air to electronics sewn into the limbs of paralyzed people,
"Street predicts that Black Friday 2015 will still see lots of deals around electronics and computing,
#Gallium nitride and Sol-Gel Transistors to Change Electronics and Energy consumption Cambridge Electronics, Inc. CEI), whose motto is"Dream it.
and other electronics will produce $900 billion in energy savings annually by 2025. That's impressive.
which greatly expands the application of layered materials for human-machine interfacing robotics MEMS and active flexible electronics.
Wide bandgap technology enables devices to perform more efficiently at a greater range of temperatures than conventional semiconductor materials said ORNL's Madhu Chinthavali who led the Power Electronics and Electric Machinery Group on this project.
Initial evaluations confirmed an efficiency of nearly 99 percent surpassing DOE's power electronics target
and Electronics Engineers Workshop on Wide Bandgap Power Devices and Applications in Knoxville were Curt Ayers Steven Campbell Randy Wiles and Burak Ozpineci.
Enter carbon electronics. Electronics based on carbon especially carbon nanotubes (CNTS) are emerging as successors to silicon for making semiconductor materials.
And they may enable a new generation of brighter low-power low-cost lighting devices that could challenge the dominance of light-emitting diodes (LEDS) in the future
Semiconductors which form the basis of modern electronics are doped by adding a small number of impure atoms to tune their properties for specific applications.
and we start to replace onboard electronics on airplanes this will become a much larger problem Zhuo said.
The use of nanoparticles in applications ranging from electronics to pharmaceuticals is a lively area of research;
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
Also referred to as'microfluidics'technology it was inspired by revolutionary semiconductor electronics and has been under intensive development since the 1990s.
In electronics this is important because a high density of transistors has many direct and indirect benefits for computation and signal processing.
This week, at the Institute for Electrical and Electronics Engineersinternational Conference on Robotics and Automation, a group of MIT researchers were nominated for two best-paper awards for a new algorithm that can significantly reduce robot teamsplanning time.
wee demonstrated that we can make all the universal logic gates used in electronics, simply by changing the layout of the bars on the chip,
our soft robots typically have some rigid components things like batteries and control electronics. This robot is a demonstration of a method to integrate the rigid components with the body of the soft robot through a gradient of material properties
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 few examples include the Lumia smartphone from Nokia, the Nexus 4 from LG Electronics, and the Droid DNA from Verizon Wireless and HTC.
a former electronics engineer with IBM and Sun who got the idea for a water-monitoring system
making integration into electronics difficult. Instead of external pumps, the NC State researchers used a voltage to control the amount of liquid metal allowed to flow into a capillary.
But researchers are now working on more affordable, crowdsourced warning systems based on low-cost sensors and cellphone electronics.
and electronics integrated into smart clothing. Smart fabrics, which incorporate different types of sensors into garments, have been in development for decades.
when individual molecules would serve as the basic building blocks for electronics. That day has moved a bit closer thanks to research out of the Columbia University School of engineering and Applied science.
while leafing through his copy of IEEE Spectrum, Zhenqiang"Jack"Ma, an engineer at the University of Wisconsin-Madison whose research focus is microwave electronics,
The paper includes a market survey comparing today's production of rigid electronics with the projected flexible electronics production.
The volume of flexible electronics is expected to largely exceed rigid electronics. e
#Graphene Heating system Dramatically Reduces Home energy Costs Breakthroughs in energy generation using nanomaterialsike their enabling of better supercapacitors
asteroid mining firm Planetary Resources, aims to test critical electronic systems and software during its 90-day mission.
the researchers believe that the material could be used as interconnects in flexible electronics and a host of other related applications.
#Spintronic Devices Possible Without Magnetic material Spintronics, which has offered a promising alternative to electronics, may have just been given a boost that moves it from mere promise to likely future backbone of computing.
A young researcher at Argonne National Laboratory has stumbled upon the amazing discovery that a magnetic material may not be required
The hope of spintronics stems from its use of the spin of electrons to encode information rather than the transport of electrical charge of electrons.
This fundamental difference is believed to be a solution to many of the problems associated with electronics,
was looking at different materials that would make it possible to produce smaller spintronic devices and provide greater control over the thermal gradients that needed to be applied to the material to start the current spin of the electrons.
the researchers see an opportunity to push ahead the state-of-the-art in spintronics. ee just taken ferromagnetism off its pedestal,
said Wu in the release. n a spintronic device you don have to use a ferromagnet.
He says he was just building something he thought could have saved him some trouble one time on a trip home to Argentina. was trying to bring a bunch of electronics some ipads home to my family for Christmas.
Enough to charge mall electronics at arbitrary typing speed greater than 100 characters per minaccording to the team
while Alibaba Baidu and electronics seller Suning Commerce Group also got government licenses to offer mutual funds loans and insurance.
Magic Leap is also trying to recruit people skilled in lasers, mobile and wireless electronics, cameras,
and combine them in ways no one has managed yet to do. think people are starting to realize this is the future of building consumer devices he says. ut it involves big challenges at the intersection of optics, electronics, algorithms,
They first laminate a sheet of plastic to glass and then deposit the materials for the pixels and the electronics on top of both.
the electronics, and the touch componentsend to be stacked, and the innermost layers have to bend more than the outermost ones.
Some researchers have developed stretchable electronics, which might help accommodate stresses (see tretchable Displaysand aking Stretchable Electronics.
Novel materials for touch screens that use flexible nanomaterials could also help. One patent application suggests Apple is already looking at this issue.
while keeping the electronics lined up properly with the pixels they control. Making a flexible battery is another challenge.
But before we re all riddled with electronics researchers have to figure out how to power it all.
The component is small and cheap enough to lead to smart electronics in clothing and sports equipment.
#Super-Fast Pixels Could Make Smartphones Brighter and Longer-Lasting Displays account for between 45 and 70 percent of the total energy consumption in portable electronics.
The electronics need to fit into a smaller package, and rather than simply dealing with different wrist sizes youe got to contend with countless ear shapes,
so it could also lead to better and cheaper electronics and solar cells. Sapphire, or crystalline aluminum oxide, is made in nature
so it should be easier to integrate the memory storage with other electronics on a chip.
and hopes to sell them to manufacturers of wearable electronics, medical devices, smart labels, and environmental sensors.
Those tools range from cloud simulation platforms for theoretical work to new types of electronics for use in the super-cooled temperatures of quantum hardware experiments.
Researchers say they are making rapid improvements in electronics, including small, implantable computers. Under its program, Mass General will work with Draper Laboratories in Cambridge, Massachusetts,
The president-elect of the American Society of Hypertension John Bisognano says the work is an impressive and promising application of recent advances in miniaturized electronics and microsurgery.
Electronics manufacturing giant Wistron has modified now equipment at one of its factories in China to produce touch-screen panels with the shape-shifting technology inside.
He says the two companies have begun working on the design of products and prototypes for carriers, electronics brands, and retailers.
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