and Korea Research Institute of Standards and Science said that they have demonstrated for the first time an on-chip visible light source using graphene as a filament.
"This new type of'broadband'light emitter can be integrated into chips and will pave the way towards the realisation of atomically thin, flexible,
and graphene-based on-chip optical communications,"said Hone
#In a first, drug offers hope for children with dwarfism An experimental drug, vying to become the first approved treatment for dwarfism, improved growth in children by a significant amount in a preliminary study, the drug's developer,
The sensor chip, able to pick up on subtle differences in glycoprotein molecules, will help improve the process of early stage prostate cancer diagnosis,
The team of chemical engineers and chemists at the University of Birmingham, created a sensor chip with synthetic receptors along a 2d surface to identify specific
and the fabrication of plastic circuit boards involve little more than simple inkjetting and processing with low-cost liquids.
The largest hurdle has primarily been in duplicating the micron-level features seen in today's integrated circuits.
firms and even larger companies being able to literally 3d print their own circuit boards...so long as they have the equipment.
but how it is possible without having any wires, motors, chips? Here is where the geometric code developed by tibbit has come to play.
The chip provides exceptional sensitivity and reproducibility of results,"stated Steve Turner, Protea CEO. He added,
simply by changing the layout of the bars on the chip, "said Katsikis.""The actual design space in our platform is incredibly rich.
A new way to manipulate matterthe current chips are about half the size of a postage stamp,
and do more number of operations on a chip, "said graduate student and co-author Jim Cybulski."
optomechanical chip.""We've been following the progress made in the development of micro -and nanomechanical biosensors for quite a while now and can say that no one has been able to introduce a simple and scalable technology for parallel monitoring that would be ready to use outside a laboratory.
1 micrometer wide and 90 nanometers thick), connected tightly to a chip. To get an idea how it works,
Without the nanoscale waveguide and the cantilever, the chip simply wouldn't work. Abig cantilever cannot be made to oscillate by freely propagating light,
Cantilever oscillations make it possible to determine the chemical composition of the environment in which the chip is placed.
One chip, several millimeters in size, will be able to accommodate several thousand such sensors, configured to detect different particles or molecules.
"This new type of'broadband'light emitter can be integrated into chips and will pave the way towards the realization of atomically thin, flexible,
and graphene-based on-chip optical communications,"said Hone, Wang Fon-Jen Professor of Mechanical engineering at Columbia Engineering and co-author of the study.
it is necessary to produce light in small structures over the surface of a chip.
it has not yet been possible to put the incandescent light bulb-the simplest and oldest artificial light source-onto a chip.
Further, the high efficiency of heat transfer from the filament to its surroundings at the microscale can cause damage to the surrounding chip,
high-performance 3-axis accelerometers is built upon mcube award-winning monolithic single-chip MEMS technology platform,
single-chip MEMS+ASIC devices that are cost effective, while consuming very little power and offering very high performance.
and occupies a small footprint on the printed circuit board, making it in some cases 3x smaller than other solutions on the market today for wearable devices.
mcube has yet again proven its monolithic single-chip technology can deliver significant advancements in reducing sensor battery life
President & CEO of Yole Développement. perfect fit for the promising market of wearable devices requiring extremely optimized chips in terms of size and power consumption.
and the ability to integrate multiple sensors onto a single-chip. mcube will continue to utilize this approach as it introduces more products in the MC3600 accelerometer family later this year.
#Placenta-on-a-Chip Helps Study Inner Workings of Human Placenta The study, published online in the Journal of Maternal-Fetal & Neonatal Medicine,
The researchers created the placenta-on-a-chip technology to address these challenges, using human cells in a structure that more closely resembles the placenta's maternal-fetal barrier.
"The chip may allow us to do experiments more efficiently and at a lower cost than animal studies,"said Dr. Romero."
a chip-making expert who was taken aback by its novelty. ut being out-of-this-world is not something that needs to stop anybody at MIT,
Results indicated that the chips delivered doses comparable to injections and did so more consistently with no adverse side effects.
The chip ends an endocrine or chemical signal instead of an electrical signal. MEMS innovations Microchips Biotech made several innovations in the microelectromechanical systems (MEMS) manufacturing process to ensure the microchips could be commercialized.
gold alloy in patterns on the top of the chip to create tongues, and grooves on the base. By pressing the top and base pieces together,
could be solar cells, printed circuit boards, low-emissivity coatings, or transparent electronics. A microchannel applicator used in the system will allow the creation of smaller, more complex electronics features.
#Smart Sensor Chip with Nanocavities for Early Prostate Cancer Diagnosis Researchers at the University of Birmingham believe that the novel technology will help improve the process of early stage diagnosis. Glycoprotein molecules,
The team of chemical engineers and chemists, created a sensor chip with synthetic receptors along a 2d surface to identify specific
"To engineering the sensor chip, the team developed a smart surface with nanocavities that fit the particular target glycoprotein.
aims to increase the functionality and performance of next-generation integrated circuits while reducing footprint and power consumption.
therefore, be integrated easily into electronic circuits. Moreover, the new modulator is considerably cheaper and faster than common models,
and the aid of our smart shoulder pad, says Andreas Huber, scientist at the Fraunhofer Institute for Integrated circuits IIS in Erlangen.
and pumped through the microfluidics chip while enzymes are added to trigger a reaction. During the reaction a fluorescence appears which the fluorometer measures
I/O chips that require design integration and time-consuming programming of control and communications algorithms.
and characterized on a test chip with 1. 1-micron(#m) pixels and will be introduced in a product later this year.
But some devices are starting to use fast silicon-germanium radio chips operating at millimeter (mm) wavelengths above 10 GHZ.
Because high-speed digital circuits can easily distort mm wave signals even tiny errors can result in erroneous bits of information.
the IMS researchers have integrated an individual readout chain on the chip for each pixel column.
the most challenging part of the whole project was etting the electronic circuit that powers the fingerprint detector to work right. he device can hold 60 tablets (a standard month dose) of Oxycontin,
#New MIT Power Converter Chip Harvests More than 80%of Energy Realizing that vision, however, will require extremely low-power sensors that can run for months without battery changes or, even better,
this new chip can do both, and it can power the device directly from the battery.
All of those operations also share a single inductor the chip main electrical component which saves on circuit board space
Nonetheless, the chip power consumption remains low. e still want to have battery-charging capability, and we still want to provide a regulated output voltage,
To control the current flow across their chip, El-Damak and her advisor, Anantha Chandrakasan,
whose regulation is the very purpose of the chip. Since that voltage is fixed, the variation in timing has to come from variation in capacitance.
El-Damak and Chandrakasan thus equip their chip with a bank of capacitors of different sizes.
who leads a power conversion development project as a fellow at the chip manufacturer Maxim Integrated. f youe only coming in with a small amount,
he adds. t really kind of a full system-on-a chip for power management. And that makes it a little more complicated, a little bit larger,
Made using standard silicon processes large numbers of detector chips containing designs matched to a particular application can easily be fabricated on large (300mm) wafers with great uniformity,
At present, level designs are limited by how much data can be stored in the RAM-or, strictly, a type of RAM chip called dynamic RAM (DRAM.
3d XPOINT does away with the need to use the transistors at the heart of Nand chips.
RAM's speed advantage over traditional storage has made long it the chip of choice to funnel data directly into processors.
One instance when you might want to use the new chips instead of flash would be to store operating system files that are required every time you boot up your machine.
and other UC Berkeley researchers publicly debuted a system of beating human heart cells on a chip that could be used to screen for drug toxicity.
However, that heart-on-a-chip device used pre-differentiated cardiac cells to mimic adult-like tissue structure.
#New Chip Makes Testing for Antibiotic-resistant Bacteria Faster, Easier We live in fear of uperbugs infectious bacteria that don respond to treatment by antibiotics,
Now Ph d. researcher Justin Besant and his team at the University of Toronto have designed a small and simple chip to test for antibiotic resistance in just one hour,
Their work was published this week in the international journal Lab on a Chip. Resistant bacteria arise in part because of imprecise use of antibioticshen a patient comes down with an infection,
and biomedical engineering to design a chip that concentrates bacteria in a miniscule spaceust two nanolitres in volumen order to increase the effective concentration of the starting sample.
Electrodes built directly into the chip detect the change in current as resazurin changes to resorufin. his gives us two advantages,
a chip-making expert who was taken aback by its novelty. ut being out-of-this-world is not something that needs to stop anybody at MIT,
Results indicated that the chips delivered doses comparable to injections and did so more consistently with no adverse side effects.
The chip ends an endocrine or chemical signal instead of an electrical signal. MEMS innovations Microchips Biotech made several innovations in the microelectromechanical systems (MEMS) manufacturing process to ensure the microchips could be commercialized.
gold alloy in patterns on the top of the chip to create tongues, and grooves on the base. By pressing the top and base pieces together,
providing the detection of both copy number variations (CNVS) and loss of heterozygosity (LOH) on a single chip.
and other UC Berkeley researchers publicly debuted a system of beating human heart cells on a chip that could be used to screen for drug toxicity.
However, that heart-on-a-chip device used pre-differentiated cardiac cells to mimic adult-like tissue structure.
including labs-on-a-chip. The transition temperature can be controlled by varying the chemical composition of the hydrogel. y locally heating
The chip, known as proteo, functions by attracting a faintly luminous substance found in cancer patients,
This represents a breakthrough in terms of three dimensional printing of electronic circuits. Polymers are poor conductors of electricity
For the last two years, Amal Graafstra, the founder and CEO of the Seattle-based company, has sold implantable devices including near-field communication (NFC) chips, radio-frequency identification chips (RFID), biomagnets,
His chips enable him to do things like lock and unlock doors and log into his computer and password-secured websites.
The US Food and Drug Administration (FDA) approved RFID chips for human implantation in 2004.
So far, the Wi-fi Aware technology has been incorporated into a wireless chips from Broadcom, Intel, Marvell and Realtek."
and hardy nail polish where chips are repaired automatically. The research, carried out at the University of Bristol,
and other UC Berkeley researchers publicly debuted a system of beating human heart cells on a chip that could be used to screen for drug toxicity.
At 10mm across, the chip is small enough to be installed inside double glazing on the frame that separate the two glass panes. hanks to this window space,
On the chip are magnetic and acceleration sensors that measure how far the window is open,
Secondly, the chip needed to run from a tiny solar cell, in the winter, and through the night. y keeping both processor and chip extremely small, the latter is extremely frugal.
In addition, the researchers constructed switches that consume little energy, and engineered very short radio protocols,
In the window application, sensors on the chip measure tilt and report if it is open
The chip also detects shock, and Fraunhofer claims can differentiate between a ball hitting the glass
and a crowbar levering open the window. he applications of the radio chip are diverse.
because the application of the solar coating is connected directly to the production process of the chips.
#Imec Milab medical game-changer Imec and John Hopkins University of Baltimore have delivered a ame-changer in healthcarewith a chip-based technology called Milab
#University embeds RFID chips in yarn Researchers at Nottingham Trent University have come up with a way of embedding RFID chips in yarns
Professor Tilak Dias of the Advanced Textiles Research Group of the School of art & Design, claims that the embedded chips annot be seen in situ by the naked eye He has patented the technology,
f an RFID chip is embedded into a shirt, for instance, it will provide a much greater level of anti-theft
As people will not be able to easily identify where a chip is located in a garment,
either side of the chips are embedded in yarn fibres and act as an antenna. Measuring one millimetre by 0. 5 millimetre in size
when bought in bulk the chips can cost only a few pence each. Similar to the RFID devices now used in bank cards for contactless payments,
the tiny chips can contain all the information which is communicated usually via barcode. n relation to recycled clothes,
According to chip supplier NXP: Existing automotive technologies and business models that have worked for the car industry for a century are not so well suited to a changing car market with autonomous vehicles and Iot-connected cars.
so wee really hoping that this little chip will help us add science to that and get a better idea of
and converted to DC power in the phone or tablet by a receiver chip. Whenever youe sending an electromagnetic signal through the air,
Now, one small embedded company, Ambiq Micro, is claiming to have made a breakthrough in CPU design by building a chip designed for subthreshold voltage operation with dramatic results.
the total amount of energy a chip leaks can result in higher power consumption than would result
While there still a vast gulf between even a high-powered embedded chip like the Cortex-M4 and a Cortex-A7 smartphone class CPU, the only way to close that gap is to continue to push embedded performance per watt
the widest field of view ever achieved by a chip-scale optical scanning system. DARPA foresees this technology will open up a new class of miniaturized, extremely low-cost, robust laser-scanning technologies (LIDAR),
The timed light waves are delivered then to tiny array elements within a grid on the chip.
What this means is that purely scientific proofs of concept like current graphene computer chips might be made fully digital
and its properties and has shown also that they can make a chip with billions of identical semiconductor-metal nanowire hybrids.
which they dubbed Cluster-Chip, to capture and analyze CTC clusters from a group of 60 patients with metastatic breast, prostate,
"The chip is designed to funnel blood through a field of microscopic triangle-shaped posts. The posts are arranged so that every two posts channels cells towards the tip of a third post.
and continue through the chip until reaching the next tip. However, CTC clusters are left stuck at the tip due to forces pulling them down the post in opposite directions.
After initial tests provided information that the Cluster-Chip design was efficient at capturing cell clusters composed of 3 cells or greater,
"Dr. Toner and his colleagues anticipate that the Cluster-Chip will have an increasingly important role in stimulating new research on CTC cluster biology,
about 120 nanometers (nm) thick that were deposited onto a plastic chip containing microfluidic wells in order to hold the PCR mixture and DNA sample.
Cooling of the chip was equally impressive, dropping at rates around 6. 6°C per second.
"It can be integrated into an ultrafast genomic diagnostic chip, which we are developing for practical use in the field.
simply by changing the layout of the bars on the chip, "says Katsikis.""The actual design space in our platform is incredibly rich.
"This new type of'broadband'light emitter can be integrated into chips and will pave the way towards the realization of atomically thin, flexible,
and graphene-based on-chip optical communications.""Interestingly, the ability of graphene to reach such elevated temperatures without melting
#First 7nm node test chips developed IBM Research has created successfully the first 7nm node test chip with functioning transistors,
the new manufacturing technique has the potential to see a whopping 20 billion transistors packed into a chip the size of a fingernail.
The smallest transistors in use on chips today are 14 nm wide although 10 nm chips are in development by the likes of Intel and Samsung.
The team also used extreme ultraviolet lithography, or EUVL, for etching. Current chips are etched using an argon fluoride laser,
which has a beam that is 193 nm wide. EUV beams are only 13.5 nm wide,
We probably won see any 7 nm chips on the market for at least a few years because of how expensive they are to produce,
are less expensive data carriers than RFID chips. And RFID chips have higher read-failure rates than bar codes."
"Proximity reads are an advantage when I want to read everything that is in a kit, as opposed to handling
In other words, they can read the chip through the sheets, for example. However, if two patients are side-by-side
if RFID chips will ever displace barcodes on drug packages any more than on cereal boxes in grocery stores.
"A universal shift from bar codes to chips seems as likely to me as the US converting to the metric system,
But I think people are going to continue to push the envelope to see how the chips could be leveraged.
and Korea Research Institute of Standards and Science (KRISS) that have demonstrated for the first time ever an on-chip visible light source using graphene, an atomically thin and perfectly crystalline form of carbon,
Wang Fon-Jen Professor of Mechanical engineering at Columbia Engineering and co-author of the study. his new type of roadbandlight emitter can be integrated into chips
and graphene-based on-chip optical communications. Creating light in small structures on the surface of a chip is crucial for developing fully integrated hotoniccircuits that do with light
what is now done with electric currents in semiconductor integrated circuits. Researchers have developed many approaches to do this but have not yet been able to put the oldest and simplest artificial light sourcehe incandescent light bulbnto a chip.
This is primarily because light bulb filaments must be extremely hothousands of degrees Celsiusn order to glow in the visible range
and micro-scale metal wires cannot withstand such temperatures. In addition, heat transfer from the hot filament to its surroundings is extremely efficient at the microscale,
making such structures impractical and leading to damage of the surrounding chip. By measuring the spectrum of the light emitted from the graphene,
In its current form, its radar tech lives in a single tiny chip that can be embedded in about any type of device,
even objects that don have a traditional display. t in chip form, since there are no moving parts involved it can be embedded inside devices,
But the size and flexibility of the chip itself leaves many, many more possibilities open. In hands-on demos at Google I/O, ATAP focused more on displaying Soli gesture-recognizing capabilities rather than specific implementations.
A prototype I saw used visualizations to show how the chip was able to detect
Fibers and cables derived from the invention might one day be used as interconnects for super-elastic electronic circuits
IBM has announced that it has produced an integrated wavelength multiplexed silicon photonics chip, which will allow the bulk manufacturing of 100 Gbps optical transceivers.
while other avenues being explored include server on a chip and IBM Openpower initiative as discussed in Robert Roe second article on Future processing technologies.
and tested a fully integrated wavelength multiplexed silicon photonics chip, which will soon enable manufacturing of 100 Gbps optical transceivers.
IBM silicon photonics chips uses four distinct colours of light travelling within an optical fibre to transmit data in and around a computing system.
are believed to be the most complex superconductor integrated circuits ever successfully yielded. They are fabricated in part at D-Wave facilities in Palo alto,
#Technology IBM unveils'breakthrough'computer chip NEW YORK IBM on Thursday unveiled a powerful new chip
The new chips could help meet demands of future cloud computing and Big data systems, cognitive computing, mobile products and other emerging technologies, according to IBM,
which developed the chip as part of a $3 billion research effort with Samsung and Globalfoundries at the State university of New york at Albany.
Most chips today in PCS and other devices use microprocessors between 14 and 22 nanometers.
in addition to the custom circuit boards that Voxel8's printers have perfected already.""We're talking about printing out a circuit at your desk in less than 30 minutes,
This represents a vast improvement over earlier options for printing custom circuit boards, a process that,
For example, rather than trying to get a rectangular circuit board to fit inside a curved object,
Scientists have wanted long to create a teensy"light bulb"to place on a chip, enabling what is called photonic circuits,
"Current applications for microfluidic chips include serving as miniaturized chemistry and biology laboratories. Instead of performing experiments with dozens of test tubes, each droplet in a lab-on-a-chip can serve as a microscopic test tube,
The core of the new microfluidic chip, which is about half the size of a postage stamp,
The layout of the bars on these new microfluidic chips is analogous to the layout of circuits on microchips, controlling interactions among the droplets.
"Making the droplets smaller will allow the chip to carry out more operations, "Prakash said. The researchers now plan to make a design tool for these droplet circuits available to the public,
The implantable chip has tiny reservoirs, each containing one dose of a particular medication. The tops of these reservoirs are capped by a metal membrane
#This tiny chip could end animal testing A plastic chip about the size of a thumb drive could be the end of animal testing.
is called organs-on-chips and was developed by researchers at Harvard Wyss Institute for Biologically Inspired Engineering.
Each chip is embedded with microfluidic tubes lined with human cells, through which air, blood and bacteria can be pumped,
and the chipsclear polymer allows scientists to watch the small-scale biological processes in real time. he organs-on-chips allow us to see biological mechanisms
Lung-on-a-chip is the first rganto be developed, but eventually chips that emulate hearts, intestines,
kidneys and other organs could all be linked together to form full-body networks, enabling researchers to test drugs and cosmetics without using animals.
The organs-on-chips tand to significantly reduce the need for animal testing by providing a faster
Although organs-on-chips are still years away from replacing animal trials on a large scale,
Learn more about organs-on-chips in the video below s
#Scientists create engine that is powered entirely by evaporation Water makes up over 70 percent of Earth's surface,
By shrinking them down in size, researchers will be able to cram millions of these devices on a single chip.
The overhead view of a new beamsplitter for silicon photonics chips that is the size of one-fiftieth the width of a human hair.
Diodes are fundamental building blocks of integrated circuits; they allow current to flow in only one direction.
or support layer, of a computer chip, with cellulose nanofibril (CNF), a flexible, biodegradable material made from wood."
"The majority of material in a chip is support. We only use less than a couple of micrometers for everything else,
"Now the chips are so safe you can put them in the forest and fungus will degrade it.
CNF offers many benefits over current chip substrates, she says.""The advantage of CNF over other polymers is that it's a bio-based material and most other polymers are based petroleum polymers.
"The group's work also demonstrates a more environmentally friendly process that showed performance similar to existing chips.
The majority of today's wireless devices use gallium arsenide-based microwave chips due to their superior high-frequency operation and power handling capabilities.
"I've made 1, 500 gallium arsenide transistors in a 5-by-6 millimeter chip. Typically for a microwave chip that size,
and make a completely functional circuit with performance comparable to existing chips.""While the biodegradability of these materials will have a positive impact on the environment,
Ma says the flexibility of the technology can lead to widespread adoption of these electronic chips."
"Mass-producing current semiconductor chips is so cheap, and it may take time for the industry to adapt to our design,
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