27th June 2008, 01:32 pm
Researchers at Northwestern University and Princeton University have created a new kind of polymer that, because of its extraordinary thermal and mechanical properties, could be used in everything from airplanes to solar cells.
The polymer, a nanocomposite that incorporates functionalized, exfoliated graphene sheets, even conducts electricity, and researchers hope to use that property to eventually create thermally stable, optically transparent conducting polymers.
Continue reading ‘By Adding Graphene, Researchers Create Superior Polymer’ »
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electroconductivity,
graphene,
nanocomposite,
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Princeton,
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University Category:
Advanced Materials,
Communication,
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Mechanical,
Mechatronics,
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Optics,
Physics,
Robotics |
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7th February 2008, 07:43 pm
Bypassing decades-old conventions in making computer chips, Princeton engineers developed a novel way to replace silicon with carbon on large surfaces, clearing the way for new generations of faster, more powerful cell phones, computers and other electronics.
The electronics industry has pushed the capabilities of silicon — the material at the heart of all computer chips — to its limit, and one intriguing replacement has been carbon, said Stephen Chou, professor of electrical engineering. A material called graphene — a single layer of carbon atoms arranged in a honeycomb lattice — could allow electronics to process information and produce radio transmissions 10 times better than silicon-based devices.
Until now, however, switching from silicon to carbon has not been possible because technologists believed they needed graphene material in the same form as the silicon used to make chips: a single crystal of material 8 or 12 inches wide. The largest single-crystal graphene sheets made to date have been no wider than a couple millimeters, not big enough for a single chip. Chou and researchers in his lab realized that a big graphene wafer is not necessary, as long they could place small crystals of graphene only in the active areas of the chip. They developed a novel method to achieve this goal and demonstrated it by making high-performance working graphene transistors.
Continue reading ‘Move over, silicon: Advances pave way for powerful carbon-based electronics’ »
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Carbon,
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Thin Category:
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Physics |
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