Microelectronics

Electronic devices (174)
Electronic equipment (121)
Electronics (118)
Electronics industry (63)
Microelectronics (11)

Synopsis: Electronics: Microelectronics:


Livescience_2013 03616.txt

just as microelectronics control electricity. The aim of such devices is to shrink beakers flasks and other lab equipment to create microchip-sized labs. As such they want to learn more about how fluids such as blood


Nature 04255.txt

In the wake of the incidents, experts are raising questions about safety in the country s research-intensive chemical and microelectronics industries,


ScienceDaily_2013 01180.txt

The large grains are several centimeters in size--lunkers by microelectronics standards --but their relative bulk enables them to survive the high temperatures needed for graphene growth explained NIST researcher Mark Keller.


ScienceDaily_2013 05985.txt

However until recently scientists believed that growing the high density of tiny graphene cylinders needed for many microelectronics applications would be difficult.

In microelectronics this approach to growing high-density carbon nanotube forests on conductors can potentially replace


ScienceDaily_2013 09434.txt

which is a fundamental building block of microelectronics. Our work provides a new path for the realization of polarization-sensitive photodetectors that could be enabled on flexible


ScienceDaily_2013 13144.txt

In solar cells it is not possible to use as pure a form of silicon as in for example microelectronics

and accordingly impurities cannot be controlled in solar cells by means of the same methods as those used in microelectronics.


ScienceDaily_2014 06021.txt

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.


ScienceDaily_2014 12163.txt

In the Rice study Ajayan and colleagues tested their atomically thin layers of molybdenum diselenide by building a field effect transistor (FET) a commonly used device in the microelectronic industry.

Materials with high electron mobility are preferred often to reduce power consumption and heating in microelectronic devices.


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