Graphene

GRAPHENE ENERGY HARVESTING CHIPS CLOSER TO AVAILABILITY

GRAPHENE ENERGY HARVESTING CHIPS CLOSER TO AVAILABILITY

Nanotechnology company NTS Innovations says it has achieved a major milestone in its development of a graphene energy harvesting (GEH) clean energy source that can operate in any environment. GEH is the act of harvesting energy at the nanoscale level from the naturally occurring oscillations in graphene. Freestanding graphene converts ambient energy into mechanical energy […]

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NEW STUDY SHOWS RARE FORM OF MAGNETIC AND ELECTRICAL PROPERTY IN STACK TWISTED GRAPHENE

NEW STUDY SHOWS RARE FORM OF MAGNETIC AND ELECTRICAL PROPERTY IN STACK-TWISTED GRAPHENE

A group of scientists at Columbia University and the University of Washington has found unique electronic states along with an uncommon kind of magnetism, can develop in a three-layer graphene structure. The work was inspired by current research studies of twisted monolayers or twisted bilayers of graphene, making up either 2 or 4 overall sheets. These results were discovered to treat

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FLASH GRAPHENE SYNTHESIS – ELECTRICITY TURNS GARBAGE INTO GRAPHENE

FLASH GRAPHENE SYNTHESIS – ELECTRICITY TURNS GARBAGE INTO GRAPHENE

Graphene is the thinnest yet one of the most strong materials known to man while being only one atom thick. On top of that, graphene is an excellent conductor of heat and electricity and has remarkable light absorption abilities. It is truly a material that could change the world, with unlimited potential for integration in

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Researchers Develop Transparent Flexible Terahertz Sensors With Graphene

The researchers of the Swedish Chalmers University of Technology have developed a new design of terahertz sensor using Graphene. This flexible sensor can be integrated into wearable materials. Most importantly, it can be manufactured very cheaply and also it is practically transparent. This new type of sensor could be a major breakthrough by opening doors of many new applications. The

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Graphene Electronic Circuits with Atomic Precision

Abstract The use of graphene in electronic devices requires a band gap, which can be achieved by creating nanostructures such as graphene nanoribbons. A wide variety of atomically precise graphene nanoribbons can be prepared through on-surface synthesis, bringing the concept of graphene nanoribbon electronics closer to reality. For future applications it is beneficial to integrate

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A New Material For Unbreakable Smart Devices

Most of smartphones parts are made of silicons and other compounds, which are expensive and easily-breakable. This problem is making all of smart devices manufacturers looking for stronger and cheaper solutions. By combining a set of materials, a group of researchers have successfully discovered a new material which could finally finish the disaster of cracked smartphone

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Supercapacitors Surpassing Conventional Batteries

Researchers at the University of Central Florida have been looking for alternatives for lithium rechargeable batteries which are largely used in every device. Using two-dimensional (2D) transition-metal dichalcogenides (TMDs) capacitive materials, they are building a new supercapacitor that overcomes the performance of conventional lithium battery and replaces its efficiently. Transition metal dichalcogenide monolayers (TMDs) are

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HRL Laboratories Demonstrates World’s First Graphene RF Field-Effect Transistors Under DARPA’s CERA Program

Malibu, CA (PRWEB) December 5, 2008 – HRL Laboratories, LLC, announced today it has demonstrated the world’s first graphene RF field effect transistors (FETs) as part of the Carbon Electronics for RF Applications, or CERA program. The milestone is the first in the proposed 51-month, three-phase program to develop a new generation of carbon-based radio-frequency

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