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Graphene-based Field-effect Transistors

by Adarsh Singh Sagar , 2011
"... With transistors set to reach their smallest possible size in the next decade, the silicon chip is likely to change dramatically, or be replaced entirely. The transistor industry's path which has been largely shaped by Gordon Moore's famous prediction that the number of transistors on a si ..."
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in graphene-and graphite-based devices. It describes the differences between the two types of graphene bilayers and the effect of their stacking order when placed in an electric field. The differ-ences are studied using Scanning Photocurrent Microscopy, leading to the conclusion that

Characterization of Single-Walled Carbon Nanotube and Graphene-Based Field-Effect Transistors

by Sungjin Kim, Shinya Aikawa, Pei Zhao, Erik Einarsson, Shohei Chiashi, Shigeo Maruyama
"... Abstract—We describe a transparent and flexible field-effect transistor (FET) made from graphene and single-walled carbon nanotubes (SWNT) hybrid system. Graphene and vertically aligned SWNTs simultaneously grown by alcohol catalytic chemical vapor deposition (ACCVD) were employed as channel and sou ..."
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Abstract—We describe a transparent and flexible field-effect transistor (FET) made from graphene and single-walled carbon nanotubes (SWNT) hybrid system. Graphene and vertically aligned SWNTs simultaneously grown by alcohol catalytic chemical vapor deposition (ACCVD) were employed as channel

Ultra-sensitive label-free detection of proteins by chemically derived graphene based field-effect transistor

by G Zheng , F Patolsky , Y Cui , W U Wang , C M Lieber , ; A Kim
"... Label-free electrical detection of proteins using field-effect transistor (FET) biosensors based on onedimensional (1D) nanostructured semiconductors Recently, two-dimensional (2D) graphene and reduced GO (R-GO) nanosheets or films Here we present scalable and facile fabrication of R-GO FET with ..."
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Label-free electrical detection of proteins using field-effect transistor (FET) biosensors based on onedimensional (1D) nanostructured semiconductors Recently, two-dimensional (2D) graphene and reduced GO (R-GO) nanosheets or films Here we present scalable and facile fabrication of R-GO FET

Flexible Graphene Devices with an Embedded Back-Gate

by unknown authors , 2012
"... We show the fabrication of flexible graphene devices with an embedded back-gate. The resistance of these devices can be tuned by changing the strain through the bending of the substrate. These devices can be useful for applications re-quiring a flexible graphene-based field effect transistor in wher ..."
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We show the fabrication of flexible graphene devices with an embedded back-gate. The resistance of these devices can be tuned by changing the strain through the bending of the substrate. These devices can be useful for applications re-quiring a flexible graphene-based field effect transistor

Electrons in bilayer graphene

by Edward Mccann, David S. L. Abergel, Vladimir I. Fal’ko
"... Electrons in bilayer graphene possess an unusual property: they are chiral quasiparticles characterized by Berry phase 2pi. We review the tight-binding model of bilayer graphene which determines the band structure and low-energy quasiparticle properties of this material and we describe the optical m ..."
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graphene-based field-effect transistor.

Abstract Solid State Communications 143 (2007) 110–115 Electrons in bilayer graphene

by Edward Mccann, David S. L. Abergel, Vladimir I. Fal’ko , 2007
"... www.elsevier.com/locate/ssc Electrons in bilayer graphene possess an unusual property: they are chiral quasiparticles characterized by Berry phase 2π. We review the tight-binding model of bilayer graphene which determines the band structure and low-energy quasiparticle properties of this material an ..."
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transverse electric field in a graphene-based field-effect transistor.

Surface and Interference Coenhanced Raman Scattering of Graphene

by Feng Li, Hui-ming Cheng
"... raphene, as a perfect two-dimensional carbon system, has at-tracted increasing attention as a promising candidate for future electronics because of its unique structure, high crys-tal quality, ballistic transport under ambient condition, and the massless Dirac fermion-like charge carriers.14 It has ..."
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been envi-sioned that future electronic circuits could be made up of graphene-based field-effect transistors and conductive interconnects with high mobility of charge carriers.3 In ad-dition, graphene also exhibits great prom-ise for potential applications in many other technological fields

Highly Efficient Restoration of Graphitic Structure in Graphene Oxide Using Alcohol Vapors

by unknown authors
"... ince the discovery of single-layer graphene (SLG),13 it has attracted in-tensive interest due to its two-dimensionality and unique physical proper-ties such as high intrinsic carrier mobility (200 000 cm2/V · s),4 quantum electronic transport,2,5 tunable band gap,6,7 high me-chanical strength and el ..."
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and elasticity,8 and supe-rior thermal conductivity.9 These outstand-ing properties make graphene promising for high-speed transistor applications,1014 transparent conductive thin films,1417 rein-forced composites,18 and energy storage.19 Moreover, graphene-based field-effect tran-sistors for biological sensors

unknown title

by Lijie Ci, Zhiping Xu, Lili Wang, Wei Gao, Feng Ding, Kevin F. Kelly, Boris I. Yakobson, Pulickel M. Ajayan, Address Correspondence To Lijie Ci, Pulickel M. Ajayan , 2008
"... Rapid progress in graphene-based applications is calling for new processing techniques for creating graphene components with different shapes, sizes, and edge structures. Here we report a controlled cutting process for graphene sheets, using nickel nanoparticles as a knife that cuts with nanoscale p ..."
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for next-generation electronics [1 5]. It has been envisioned that future electronic circuits could be made up of graphene-based field-effect transistors and conductive

Free-standing graphene at atomic resolution

by Mhairi H. Gass, Ursel Bangert, Andrew L. Bleloch, Peng Wang, Rahul R. Nair, A. K. Geim - Nat. Nanotechnol
"... Research interest in graphene, a two-dimensional crystal consisting of a single atomic plane of carbon atoms, has been driven by its extraordinary properties, including charge carriers that mimic ultra-relativistic elementary particles. Moreover, graphene exhibits ballistic electron transport on the ..."
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on the submicrometre scale, even at room temperature, which has allowed the demonstration of graphene-based field-effect transistors and the observation of a room-temperature quantum Hall effect. Here we confirm the presence of free-standing, single-layer graphene with directly interpretable atomic-resolution imaging
Results 1 - 10 of 2,349