Microelectronics

Analogue electronics (25)
Microelectronics (58)
Optoelectronics (85)
Semiconductors (941)

Synopsis: Domenii: Electronics: Electronics generale: Electronics branches: Microelectronics:

Researchers at Ghent University and the Interuniversity Microelectronics Centre (IMEC) in Belgium, and the University of Surrey in the United kingdom, who designed the modulator,

says John Olaherty, the technical director of Ireland Limerick-based National Microelectronics Applications Centre (MAC),

"Our sensors can be fabricated in parallel with techniques usually adopted for microelectronics, "says Kitching.""Moreover, while SQUID-based imaging systems require a large magnetically-shielded room to operate,

as well as microelectronics devices. Such devices have many potential applications in research and diagnostics but they could be even more useful

Yet while scientists made great strides in reducing of the size of individual computer components through microelectronics,

#All directions are created not equal for nanoscale heat sources Thermal considerations are rapidly becoming one of the most serious design constraints in microelectronics, especially on submicron scale lengths.

Toggling between or sustaining those conductive properties are particularly important for future applications in microelectronics.

Microelectronics to electric vehicles can benefit from energy storage devices that offer high power and high energy density. That's why researchers are working to develop a device that offers both.

But perhaps most importantly, EPGL has invented solutions that will enable microelectronics to be placed into modern Silicone Hydrogel contact lenses for mass market production,

we think you shouldn have to equip yourself with a microelectronics facility, and you shouldn have to do embryonic dissections

a coating method often used in the field of microelectronics. This was the first time the technique had been used to produce a high-entropy alloy by atomizing the four elements and spraying them onto a substrate material.

and scientists use nanowires fabricated from it to search for potential application in the microelectronics industry.

and scientists use nanowires fabricated from it to search for potential application in the microelectronics industry.

In traditional microelectronics information is coded via the electric charges. In spin electronics-or spintronics-information is coded via the electron spin,

The MZM can also be made by means of the widespread CMOS-processes in microelectronics, and thus can easily be integrated into current chip architectures.

and favoured by the trillion-dollar computing and microelectronics industry. Teams led by UNSW researchers have demonstrated already a unique fabrication strategy for realising atomic-scale devices

billion-euro manufacturing plants that are necessary for manufacturing today's microelectronics could be a thing of the past.

The embedded microfluidic channels provide an intriguing option to remove heat from future microelectronics systems."

But it the promise of MOF nanoparticles suitable to make into thin films for sensors and microelectronics that is particularly alluring.

and microelectronics. e believe our method has huge potential, comments Jin-Chong, t opens the door to exploiting MOF-based supramolecular gels as a new 3d scaffolding material useful for engineering optoelectronics and innovative micromechanical devices n

Applications from microelectronics to high-temperature jet engine components rely on tailoring of crystallographic texture to achieve desired performance characteristics.

Microelectronics fabrication technologies based on silicon are widespread and easily understood, but until the 2010 discovery of conductive filament pathways in silicon oxide in Tour's lab, the material wasn't considered an option for RRAM.

The UCSF team is being supported by microelectronics and wireless researchers at UC Berkeley who have created several prototypes of miniaturized brain implants.

but also make it scalable and compatible with standard microelectronics technologies, "researchers said d

#New sensor to detect cancer, HIV Researchers have developed a highly sensitive nanomechanical sensor that can detect cancerous tumours as well as viral disease markers for HIV,

but also make it scalabile and compatibile with standard microelectronics technologies, "researchers said. MOSCOW: Researchers have developed a highly sensitive nanomechanical sensor that can detect cancerous tumours as well as viral disease markers for HIV,

but also make it scalabile and compatibile with standard microelectronics technologies, "researchers said d

#Woman uses her ovary frozen at 13, gives birth LONDON: In a medical breakthrough, a 28-year-old woman has become the first person in the world to give birth to a baby using ovarian tissue that was removed

but also make it scalabile and compatibile with standard microelectronics technologies, "the researchers said. Unlike similar devices, the new sensor has no complex junctions

and can be produced through a standard CMOS process technology used in microelectronics. The sensor doesn't have a single circuit

#OSU Scientists Use Microreactor to Create Silver nanoparticles at Room temperature for Printed Electronics There may be broad applications in microelectronics, sensors, energy devices, low emissivity coatings and even transparent displays.

The research has been published in the journal Microsystems & Nanoengineering, in an article headed"3d printed microelectronics for integrated circuitry and passive wireless sensors. e

Whereas conventional microelectronics shuffle electrons around wires, in recent years, scientists have begun developing so-called microfluidic devices that shuffle liquids around pipes.

Results of the research have been published in Microelectronics Journal vol. 46, issue 1, 2015, pp. 43-51 1

2015globalfoundries Completes Acquisition of IBM Microelectronics Business: Transaction adds differentiating technologies, world-class technologists, and intellectual property July 1st, 2015nei Announces the Issuance of Multiple Patents on Self-Healing & Superhydrophobic Coatings June 30th,

#An easy, scalable and direct method for synthesizing graphene in silicon microelectronics: Korean researchers grow 4-inch diameter, high-quality, multi-layer graphene on desired silicon substrates,

an important step for harnessing graphene in commercial silicon microelectronics Abstract: In the last decade, graphene has been studied intensively for its unique optical, mechanical, electrical and structural properties.

but most graphene fabrication methods are not compatible with silicon microelectronics, thus blocking graphene's leap from potential wonder material to actual profit-maker.

and microelectronics-compatible method to grow graphene and have synthesized successfully wafer-scale (four inches in diameter), high-quality, multi-layer graphene on silicon substrates.

which takes graphene a step closer to commercial applications in silicon microelectronics.""For integrating graphene into advanced silicon microelectronics, large-area graphene free of wrinkles, tears and residues must be deposited on silicon wafers at low temperatures,

which cannot be achieved with conventional graphene synthesis techniques as they often require high temperatures, "said Jihyun Kim, the team leader and a professor in the Department of Chemical and Biological engineering at Korea University."

"In silicon microelectronics, graphene is a potential contact electrode and an interconnection material linking semiconductor devices to form the desired electrical circuits,

the method is suited not for silicon microelectronics, as chemical vapor deposition would require a high growth temperature above 1,

"Thus, we are motivated to develop a transfer-free method to directly synthesize high quality, multilayer graphene in silicon microelectronics."

a microelectronics-compatible technique normally used to introduce impurities into semiconductors. In the process, carbon ions were accelerated under an electrical field

but also make it scalabile and compatibile with standard microelectronics technologies, "the researchers said. Unlike similar devices, the new sensor has no complex junctions

and can be produced through a standard CMOS process technology used in microelectronics. The sensor doesn't have a single circuit

Both papers offer the microelectronics industry a possible answer to the long term challenge of creating a new powerful and energy efficient,

#An easy, scalable and direct method for synthesizing graphene in silicon microelectronics (Nanowerk News) In the last decade,

but most graphene fabrication methods are not compatible with silicon microelectronics, thus blocking graphene's leap from potential wonder material to actual profit-maker.

and microelectronics-compatible method to grow graphene and have synthesized successfully wafer-scale (four inches in diameter), high-quality, multi-layer graphene on silicon substrates.

which takes graphene a step closer to commercial applications in silicon microelectronics. Wafer-scale (4 inch in diameter) synthesis of multi-layer graphene using high-temperature carbon ion implantation on nickel/Sio2/silicon.

J. Kim/Korea University, Korea)" For integrating graphene into advanced silicon microelectronics, large-area graphene free of wrinkles, tears and residues must be deposited on silicon wafers at low temperatures,

"In silicon microelectronics, graphene is a potential contact electrode and an interconnection material linking semiconductor devices to form the desired electrical circuits,

the method is suited not for silicon microelectronics, as chemical vapor deposition would require a high growth temperature above 1,

"Thus, we are motivated to develop a transfer-free method to directly synthesize high quality, multilayer graphene in silicon microelectronics."

a microelectronics-compatible technique normally used to introduce impurities into semiconductors. In the process, carbon ions were accelerated under an electrical field

adding that the breakthrough"builds on decades of research that has set the pace for the microelectronics industry".

Copper, even at trace levels, is a problem for microelectronics because it acts as a conductor,

Akinwande teamed with Alessandro Molle at the Institute for Microelectronics and Microsystems in Agrate Brianza, Italy,

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