| Amplifier (40) |  |
| Antenna (270) | |
| Circuits (1435) | |
| Consumer electronics (474) | |
| Electrical connectors (8) | |
| Electrode (1090) | |
| Electronic converters (51) | |
| Electronic device (277) | |
| Electronic equipment (61) | |
| Logic gate (59) | |
| Microchip (210) | |
| Modem (6) | |
| Multiplexer (10) | |
| Receiver (136) | |
| Sensor (3035) | |
| Transceiver (19) | |
| Transmitter (109) | |
Apollo spurred many advances, from portable cordless vacuums to microchips in your computer. China is hoping for a similar effect to make it more competitive globally.
How to make a microchip that breathes Drug testing is a costly business. Before any candidate can be tested in humans it has to be tested on animals to see
Researchers are creating microchips that mimic the structure and function of living organs, such as the lung and heart.
where Dumeetha Luthra is amazed by the team's cellular reconstruction of a human lung on a microchip.
Moving cells with magnets Yellen and his collaborator, Cheol Gi Kim of Daegu Gyeongbuk Institute of Science and Technology in South korea, printed thin electromagnetic components like those found on microchips onto a slide.
#Microchip could detect infection in artificial joints A tiny microchip could improve postoperative care for patients with knee replacements
The photodetector which sees colors in much the same way the human eye does uses an aluminum grating that can be added to silicon photodetectors with the silicon microchip industry s mainstay technology omplementary metal-oxide
#Silicon system produces squeezed light California Institute of technology rightoriginal Studyposted by Kimm Fesenmaier-Caltech on August 9 2013caltech (US)# A new system constructed on a silicon microchip offers a more useful way to produce the ultraquiet
#Our experiment brings together in a tiny microchip package many aspects of work that has been done in quantum optics and precision measurement over the last 40 years.#
as the mechanism in question is currently the size of a microchip. Via RT Share Thissubscribedel. icio. usfacebookredditstumbleupontechnorati swfobject. embedswf (http://www. youtube. com/v/BWUOHOCN UG&
The most recent report from the microchip industry group the ITRS says the so-called five-nanometernode is due in 2019.
who has founded four other companies in his time at MIT Microchips Inc.,Springleaf Therapeutics, Entra Pharmaceuticals,
Such patterns may be useful in directing cells through a microchip s channels or wicking moisture from a windshield.
but the signal it generates would travel to a microchip implanted in the ear, which would convert it to an electrical signal and pass it on to an electrode in the cochlea.
about 20 nanometers in size the same size range as the smallest features that can now be produced in microchips.
#Major step for implantable drug-delivery device An implantable, microchip-based device may soon replace the injections
Earlier this month, MIT spinout Microchips Biotech partnered with a pharmaceutical giant to commercialize its wirelessly controlled, implantable,
microchip-based devices that store and release drugs inside the body over many years. Invented by Microchips Biotech cofounders Michael Cima, the David H. Koch Professor of Engineering,
and Robert Langer, the David H. Koch Institute Professor, the microchips consist of hundreds of pinhead-sized reservoirs,
each capped with a metal membrane, that store tiny doses of therapeutics or chemicals. An electric current delivered by the device removes the membrane,
and osteoporosis. Now Microchips Biotech will begin co-developing microchips with Teva Pharmaceutical, the world largest producer of generic drugs,
Microchips Biotech says these microchips could also improve medication-prescription adherence a surprisingly costly issue in the United states. A 2012 report published in the Annals of Internal medicine estimated that Americans who don stick to prescriptions rack up $100 billion to $289 billion
Microchips Biotech will continue work on its flagship product, a birth-control microchip, backed by the Bill and Melinda Gates Foundation,
Cima, who now serves on the Microchips Biotech board of directors with Langer, sees this hormone-releasing microchip as one of the first implantable rtificial organsecause it acts as a gland. lot of the therapies are trying to chemically trick the endocrine systems Cima says. e are doing that with this artificial organ we created. ild ideasinspiration for the microchips came in the late 1990s,
when Langer watched a documentary on mass-producing microchips. thought to myself, ouldn this be a great way to make a drug-delivery system??
Langer says. He brought this idea to Cima, 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,
and then-graduate student John Santini Phd 9 co-founded Microchips, and invented a prototype for their microchip that was described in a paper published that year in Nature.
This entrepreneurial collaboration was the first of many for Cima and Langer over the next decade.
For years, the technology underwent rigorous research and development at Microchips Biotech. But in 2011, Langer and Cima,
and researchers from Microchips, conducted the microchipsfirst human trials to treat osteoporosis this time with wireless capabilities.
In that study, published in a 2012 issue of Science Translational Medicine, microchips were implanted into seven elderly women,
combined with ongoing efforts in contraceptive-delivery microchips, led Cima to believe the microchips could someday,
essentially, be considered the first artificial glands that could regulate potent hormones inside the body. This may sound like a wild idea ut Cima doesn think so.
EMS innovationsmicrochips Biotech made several innovations in the microelectromechanical systems (MEMS) manufacturing process to ensure the microchips could be commercialized.
A major innovation was enabling final assembly of the microchips at room temperature with hermetic seals. Any intense heat during final assembly, with hermetic sealing, could destroy the drugs already loaded into the reservoirs
To do so, Microchips Biotech modified a cold-welding ongue and grooveprocess. This meant depositing a soft,
Cima says. here was no precedent for that. he company has also found ways to integrate electronics into the microchips to shrink down the device.
the company could refine the microchips to be even smaller, yet carry the same volume of drugs. his means making the drugs take up more volume than the electrical and other components,
Put together in sequence these p-n junctions form transistors which can in turn be combined into integrated circuits microchips and processors.
The scientists would also like to integrate their photonic biodetector into optical microchips for use in clinical diagnostics s
It uses an aluminum grating that can be added to silicon photodetectors with the silicon microchip industry's mainstay technology complementary metal-oxide semiconductor or CMOS.
or platinum tips in measurements of critical importance to microchip fabrication nanobiotechnology and other endeavors.
or microchips but by using genetically engineered viruses. This achievement in coupling quantum research and genetic manipulation, described this week in the journal Nature Materials,
and cameras that can be mass-produced using the same techniques used to manufacture computer microchips. hese flat lenses will help us to make more compact and robust imaging assemblies,
which serve as the building blocks of most microchips. Transistors act like switches that flick on and off to represent data as zeroes and ones.
According to Steimle, inbuilt microchips may in future allow the skin-worn sensor patches to communicate wirelessly with other mobile devices.
what it touches through a microchip in his brain Scientists working with Darpa have developed a robotic arm that can'feel'It allowed a 28-year-old paralysed man'feel'for the first time in a decade A tiny array of electrodes were implanted into the sensory part of his brain Force
They say these could eventually lead to new types of quantum microchips that would revolutionise the digital world.
On traditional microchips bits are stored typically on a pair of silicon transistors, one of which is switched on while the other is off.
and quantum microchips has been made by team of scientists from Penn State university and the University of Chicago.
and cameras that can be mass-produced using the same techniques used to manufacture computer microchips. urrently,
It could help protect sensitive electronic components on microchips such as mobile devices, high-power engines and magnetic resonance imaging (MRI SCANNERS from the heat,
The research team separated the hard-to-kill stem cells from the general glioblastoma population by attracting the stem cells to a microchip coated with antibodies.
According to Steimle, inbuilt microchips may in future allow the skin-worn sensor patches to communicate wirelessly with other mobile devices.
The overwhelming majority of microchips that exist in electronics now are made from silicon, and they work extremely well.
and cameras that can be mass-produced using the same photolithography techniques used to manufacture computer microchips."
#Clumps of gold nanoparticles can evolve to carry out computing Move over, microchip. A random assembly of gold nanoparticles can perform calculations normally reserved for neatly arranged patterns of silicon.
Then the gold effectively forms a network of transistors that lacks the strict order of connections in a regular microchip,
#Clump of gold nanoparticles can evolve to carry out computing MOVE OVER, microchip. A random assembly of gold nanoparticles can perform calculations normally reserved for neatly arranged patterns of silicon.
the gold behaved like a network of transistors but without the strict sequence of connections in a regular microchip.
although the technology could evolve to use integrated microchips. Weigel also hopes that it could one day be possible to incorporate an energy harvesting system that would power iskin via the wear's body.
and the possibility of combining this high-technology system with the microchip they previously developed in 2013.
This makes it easier for potentially coupling the terahertz waves to a wave guide on a microchip
The overwhelming majority of microchips that exist in electronics now are made from silicon, and they work extremely well.
and the possibility of combining this high-technology system with the microchip they previously developed in 2013.
By decreasing the spacing between electronic circuits on a microchip, for example, one can fit more circuits on the same chip to produce a device with greater computing power.
and cameras that can be mass-produced using the same techniques used to manufacture computer microchips. hese flat lenses will help us to make more compact and robust imaging assemblies,
That crossover he says takes place at about 10 nanometers at room temperature--a size that microchip manufacturers are approaching as circuits shrink.
and analysis instruments of a modern chemistry lab onto a microchip-sized wafer Zeng said. Also referred to as'microfluidics'technology it was inspired by revolutionary semiconductor electronics
Silicon is the most abundant element On earth and the basic ingredient in conventional microchips. Microelectronics fabrication technologies based on silicon are widespread and easily understood,
#Green Microchips Created on Cellulose Nanofibril Paper In September 2007, 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,
to hold microchip wafers in place. But the trick works best with clean flat, smooth surfaces because the strength of the static cling depends on the size of the contact area.
and a microchip that makes sense of the signal from the first chip. By integrating those components on a single chip,
The process is used similar to that to etch microchips, and begins with a dissolvable layer deposited on a substrate.
#MEMS Innovations Enable Commercialization of Implantable Microchips for Drug-Delivery An implantable, microchip-based device may soon replace the injections
and pills now needed to treat chronic diseases: Earlier this month, MIT spinout Microchips Biotech partnered with a pharmaceutical giant to commercialize its wirelessly controlled, implantable,
microchip-based devices that store and release drugs inside the body over many years. Invented by Microchips Biotech cofounders Michael Cima, the David H. Koch Professor of Engineering,
and Robert Langer, the David H. Koch Institute Professor, the microchips consist of hundreds of pinhead-sized reservoirs,
each capped with a metal membrane, that store tiny doses of therapeutics or chemicals. An electric current delivered by the device removes the membrane,
releasing a single dose. The device can be programmed wirelessly to release individual doses for up to 16 years to treat
and osteoporosis. Now Microchips Biotech will begin co-developing microchips with Teva Pharmaceutical, the world largest producer of generic drugs,
Apart from providing convenience, Microchips Biotech says these microchips could also improve medication-prescription adherence a surprisingly costly issue in the United states. A 2012 report published in the Annals of Internal medicine estimated that Americans who don stick to prescriptions rack up $100 billion
Microchips Biotech will continue work on its flagship product, a birth-control microchip, backed by the Bill and Melinda Gates Foundation,
Cima, who now serves on the Microchips Biotech board of directors with Langer, sees this hormone-releasing microchip as one of the first implantable rtificial organsbecause it acts as a gland. lot of the therapies are trying to chemically trick the endocrine systems Cima says. e are doing that with this artificial organ we created.
Wild ideas Inspiration for the microchips came in the late 1990s, when Langer watched a documentary on mass-producing microchips. thought to myself,
ouldn this be a great way to make a drug-delivery system??Langer says. He brought this idea to Cima,
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,
and then-graduate student John Santini Phd 9 co-founded Microchips, and invented a prototype for their microchip that was described in a paper published that year in Nature.
This entrepreneurial collaboration was the first of many for Cima and Langer over the next decade.
For years, the technology underwent rigorous research and development at Microchips Biotech. But in 2011, Langer and Cima,
and researchers from Microchips, conducted the microchipsfirst human trials to treat osteoporosis this time with wireless capabilities.
In that study, published in a 2012 issue of Science Translational Medicine, microchips were implanted into seven elderly women,
That study, combined with ongoing efforts in contraceptive-delivery microchips, led Cima to believe the microchips could someday,
essentially, be considered the first artificial glands that could regulate potent hormones inside the body. This may sound like a wild idea but Cima doesn think so.
MEMS innovations Microchips Biotech made several innovations in the microelectromechanical systems (MEMS) manufacturing process to ensure the microchips could be commercialized.
A major innovation was enabling final assembly of the microchips at room temperature with hermetic seals. Any intense heat during final assembly, with hermetic sealing, could destroy the drugs already loaded into the reservoirs
To do so, Microchips Biotech modified a cold-welding ongue and grooveprocess. This meant depositing a soft,
The company has also found ways to integrate electronics into the microchips to shrink down the device.
the company could refine the microchips to be even smaller, yet carry the same volume of drugs. his means making the drugs take up more volume than the electrical and other components,
Microchip Introduces Combined Analog and Digital Current Sensor Microchip Technology Inc.,a leading provider of microcontroller, mixed-signal, analog and Flash-IP solutions,
marketing vice president of Microchip's Analog and Interface Products Division.""The PAC1921 accomplishes this by combining a digital current sensor to maximize data and diagnostic reporting,
#Major Step for Implantable Drug Delivery Device An implantable, microchip-based device may soon replace the injections
Earlier this month, MIT spinout Microchips Biotech partnered with a pharmaceutical giant to commercialize its wirelessly controlled, implantable,
microchip-based devices that store and release drugs inside the body over many years. Invented by Microchips Biotech cofounders Michael Cima, the David H. Koch Professor of Engineering,
and Robert Langer, the David H. Koch Institute Professor, the microchips consist of hundreds of pinhead-sized reservoirs,
each capped with a metal membrane, that store tiny doses of therapeutics or chemicals. An electric current delivered by the device removes the membrane,
and osteoporosis. Now Microchips Biotech will begin co-developing microchips with Teva Pharmaceutical, the world largest producer of generic drugs,
Apart from providing convenience, Microchips Biotech said these microchips could also improve medication-prescription adherence a surprisingly costly issue in the United states. A 2012 report published in the Annals of Internal medicine estimated that Americans who don stick to prescriptions rack up $100 billion
Microchips Biotech will continue work on its flagship product, a birth-control microchip, backed by the Bill and Melinda Gates Foundation,
Cima, who now serves on the Microchips Biotech board of directors with Langer, sees this hormone-releasing microchip as one of the first implantable rtificial organsbecause it acts as a gland. lot of the therapies are trying to chemically trick the endocrine systems Cima said. e are doing that with this artificial organ we created.
Wild ideas Inspiration for the microchips came in the late 1990s, when Langer watched a documentary on mass-producing microchips. thought to myself,
ouldn this be a great way to make a drug-delivery system??Langer said. He brought this idea to Cima,
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,
and then-graduate student John Santini Phd 9 co-founded Microchips, and invented a prototype for their microchip that was described in a paper published that year in Nature.
This entrepreneurial collaboration was the first of many for Cima and Langer over the next decade.
For years, the technology underwent rigorous research and development at Microchips Biotech. But in 2011, Langer and Cima,
and researchers from Microchips, conducted the microchipsfirst human trials to treat osteoporosis this time with wireless capabilities.
In that study, published in a 2012 issue of Science Translational Medicine, microchips were implanted into seven elderly women,
That study, combined with ongoing efforts in contraceptive-delivery microchips, led Cima to believe the microchips could someday,
essentially, be considered the first artificial glands that could regulate potent hormones inside the body. This may sound like a wild idea but Cima doesn think so.
MEMS innovations Microchips Biotech made several innovations in the microelectromechanical systems (MEMS) manufacturing process to ensure the microchips could be commercialized.
A major innovation was enabling final assembly of the microchips at room temperature with hermetic seals. Any intense heat during final assembly, with hermetic sealing, could destroy the drugs already loaded into the reservoirs
To do so, Microchips Biotech modified a cold-welding ongue and grooveprocess. This meant depositing a soft,
The company has also found ways to integrate electronics into the microchips to shrink down the device.
the company could refine the microchips to be even smaller, yet carry the same volume of drugs. his means making the drugs take up more volume than the electrical and other components,
#Cardiac microchip provides advance warning of future heart problems A potentially lifesaving microchip has been developed to forewarn patients suffering from heart problems of any deterioration in their condition.
Reg Youngman is one of the first to try the microchip. A tiny micro sensor has been inserted into his pulmonary artery,
Bending light with a microchip The Defense Advanced Research Projects Agency (DARPA) has demonstrated solid-state optical phased array technology in a microchip bringing the ability to bend light to the battlefront.
DARPA breakthrough 3 uses a microchip to control the light, vastly different to existing methods.
DARPA Short-range Wide-field-of-view Extremely agile Electronically steered Photonic Emitter (SWEEPER) program has integrated successfully nonmechanical optical scanning technology onto a microchip.
Those researchers built a series of pipes for light (phase shifters) on a microchip, which is able to slows down
which is the same technology used to pattern microchips and is very expensive. But the design here can be integrated with HP roll-to-roll micro-patterning technique, a much cheaper and large scale alternative.
#New Microchip Design Captures Circulating Tumor Cells Circulating tumor cells (CTCS) represent the metastatic seed that can break away from the primary tumor site,
These devices can theoretically perform any operation a conventional electronic microchip can. Although microfluidic devices are dramatically slower than conventional electronics,
The layout of the bars on these new microfluidic chips is analogous to the layout of circuits on microchips, controlling interactions among the droplets.
Implantable Drug Releasing Microchips Over the past few years wee covered Microchips Biotech, an MIT spin out company that developed an implantable technology to release drugs inside the body in a controlled manner.
The company microchips have gone already through a successful clinical trial on patients with osteoporosis, delivering teriparatide directly without having to go through regular injections.
Wireless Implantable Microchips Deliver Drugs When Needed Continuous Microchips Glucose Monitoring Shows Promiseompany homepage: Microchips Biotechource:
MIT h
#Scientists Turbo Charge Atomic Force Microscope to Watch Living Breast cancer Cells Changes in the physical properties of individual cells can point to how theye developing
But if microchips could use photons instead of electrons to process and transmit data, computers could operate even faster.
This so-called plasmonic device could one day be used in optical computing chips or for optical communication between traditional electronic microchips.
But if microchips could use photons instead of electrons to process and transmit data, computers could operate even faster.
This so-called plasmonic device could one day be used in optical computing chips or for optical communication between traditional electronic microchips.
#Microchip captures clusters of circulating tumor cells--NIH study Circulating tumor cells (CTCS) are cells that break away from a tumor and move through a cancer patient's bloodstream.
about 20 nanometers in size the same size range as the smallest features that can now be produced in microchips.
The process is used similar to that to etch microchips, and begins with a dissolvable layer deposited on a substrate.
#University spinout signs deal to commercialize microchips that release therapeutics inside the body (Nanowerk News) An implantable,
microchip-based device may soon replace the injections and pills now needed to treat chronic diseases:
Earlier this month, MIT spinout Microchips Biotech partnered with a pharmaceutical giant to commercialize its wirelessly controlled, implantable,
microchip-based devices that store and release drugs inside the body over many years. Invented by Microchips Biotech cofounders Michael Cima, the David H. Koch Professor of Engineering,
and Robert Langer, the David H. Koch Institute Professor, the microchips consist of hundreds of pinhead-sized reservoirs,
each capped with a metal membrane, that store tiny doses of therapeutics or chemicals. An electric current delivered by the device removes the membrane,
and osteoporosis. Michael Cima (left) and Robert Langer Now Microchips Biotech will begin co-developing microchips with Teva Pharmaceutical, the worlds largest producer of generic drugs,
Apart from providing convenience, Microchips Biotech says these microchips could also improve medication-prescription adherence a surprisingly costly issue in the United states. A 2012 report published in the Annals of Internal medicine estimated that Americans who dont stick to prescriptions rack up $100 billion
Microchips Biotech will continue work on its flagship product, a birth-control microchip, backed by the Bill and Melinda Gates Foundation,
Cima, who now serves on the Microchips Biotech board of directors with Langer sees this hormone-releasing microchip as one of the first implantable artificial organs because it acts as a gland.
A lot of the therapies are trying to chemically trick the endocrine systems, Cima says. We are doing that with this artificial organ we created.
A version of Microchip Biotech's implantable, wirelessly controlled microchip. When an electrical current is delivered to one of the chip's tiny reservoirs,
Wild ideas Inspiration for the microchips came in the late 1990s, when Langer watched a documentary on mass-producing microchips.
I thought to myself Wouldnt this be a great way to make a drug-delivery system?
and then-graduate student John Santini Phd 99 co-founded Microchips, and invented a prototype for their microchip that was described in a paper published that year in Nature.
This entrepreneurial collaboration was the first of many for Cima and Langer over the next decade.
For years, the technology underwent rigorous research and development at Microchips Biotech. But in 2011, Langer and Cima,
and researchers from Microchips, conducted the microchips first human trials to treat osteoporosis this time with wireless capabilities.
In that study, published in a 2012 issue of Science Translational Medicine, microchips were implanted into seven elderly women,
That study, combined with ongoing efforts in contraceptive-delivery microchips, led Cima to believe the microchips could someday,
essentially, be considered the first artificial glands that could regulate potent hormones inside the body. This may sound like a wild idea but Cima doesnt think so.
MEMS innovations Microchips Biotech made several innovations in the microelectromechanical systems (MEMS) manufacturing process to ensure the microchips could be commercialized.
A major innovation was enabling final assembly of the microchips at room temperature with hermetic seals. Any intense heat during final assembly, with hermetic sealing, could destroy the drugs already loaded into the reservoirs
To do so, Microchips Biotech modified a cold-welding tongue and groove process. This meant depositing a soft,
The company has also found ways to integrate electronics into the microchips to shrink down the device.
the company could refine the microchips to be even smaller, yet carry the same volume of drugs.
But if microchips could use photons instead of electrons to process and transmit data, computers could operate even faster.
This so-called plasmonic device could one day be used in optical computing chips or for optical communication between traditional electronic microchips.
The process for fabricating the scaffolds is similar to that used to etch microchips, and begins with a dissolvable layer deposited on a substrate.
"Innovations with microchips mean they can run with less power. For that type of application, this is interesting technology."
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