Results 151 to 160 of about 28,129 (176)
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Graphene: Graphene's properties
New Scientist, 2012Just one atom thick, graphene can be folded like plastic film, yet it is stronger than diamond and conducts electricity better than copper or gold.
Antonio Castro Neto, Andre Geim
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Chemistry Makes Graphene beyond Graphene
Journal of the American Chemical Society, 2014Although graphene is extremely inert in chemistry because of the giant delocalized π electron system, various methods have been developed to achieve its efficient chemical modification. Covalent chemistry is effective to modulate the physical properties of graphene. By converting the sp(2) hybridized carbon atoms to sp(3) ones, new two-dimensional (2D)
Lei, Liao, Hailin, Peng, Zhongfan, Liu
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New Scientist, 2012
From computer chips to touchscreens, hundreds of applications have been suggested for graphene's remarkable properties.
Antonio Castro Neto, Andre Geim
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From computer chips to touchscreens, hundreds of applications have been suggested for graphene's remarkable properties.
Antonio Castro Neto, Andre Geim
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ACS Nano, 2011
Graphene oxide (GO) holds tremendous potential for large-area electronics, high strength and conducting fillers in composites, and high-surface-area electrodes for energy storage. Graphene oxide for such applications will require manufacturing methods that are industrially compatible but also preserve its unique properties. Recent work by Korkut et al.
Goki, Eda, Manish, Chhowalla
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Graphene oxide (GO) holds tremendous potential for large-area electronics, high strength and conducting fillers in composites, and high-surface-area electrodes for energy storage. Graphene oxide for such applications will require manufacturing methods that are industrially compatible but also preserve its unique properties. Recent work by Korkut et al.
Goki, Eda, Manish, Chhowalla
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Nature, 2015
For centuries, practitioners of origami ('ori', fold; 'kami', paper) and kirigami ('kiru', cut) have fashioned sheets of paper into beautiful and complex three-dimensional structures. Both techniques are scalable, and scientists and engineers are adapting them to different two-dimensional starting materials to create structures from the macro- to the ...
Melina K, Blees +10 more
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For centuries, practitioners of origami ('ori', fold; 'kami', paper) and kirigami ('kiru', cut) have fashioned sheets of paper into beautiful and complex three-dimensional structures. Both techniques are scalable, and scientists and engineers are adapting them to different two-dimensional starting materials to create structures from the macro- to the ...
Melina K, Blees +10 more
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Nature, 2009
Graphene, a single atomic layer of carbon connected by sp(2) hybridized bonds, has attracted intense scientific interest since its recent discovery. Much of the research on graphene has been directed towards exploration of its novel electronic properties, but the structural aspects of this model two-dimensional system are also of great interest and ...
Chun Hung, Lui +4 more
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Graphene, a single atomic layer of carbon connected by sp(2) hybridized bonds, has attracted intense scientific interest since its recent discovery. Much of the research on graphene has been directed towards exploration of its novel electronic properties, but the structural aspects of this model two-dimensional system are also of great interest and ...
Chun Hung, Lui +4 more
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Chemical Communications, 2011
Thermodynamics drive the sonication-free spontaneous dissolution of a KC8 graphite intercalation compound in N-methyl-pyrrolidinone and subsequent obtention of graphene solutions at 0.7 mg ml−1. Reduction potential of graphene has been measured at +22 mV vs. SCE.
Catheline A. +8 more
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Thermodynamics drive the sonication-free spontaneous dissolution of a KC8 graphite intercalation compound in N-methyl-pyrrolidinone and subsequent obtention of graphene solutions at 0.7 mg ml−1. Reduction potential of graphene has been measured at +22 mV vs. SCE.
Catheline A. +8 more
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Science, 2013
Graphene allows us to control light in innovative ways, providing the prospect of unprecedented nanophotonic devices.
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Graphene allows us to control light in innovative ways, providing the prospect of unprecedented nanophotonic devices.
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IEEE Sensors Journal, 2011
This paper reviews the potential of graphene as a material for fabricating various types of sensors. Graphene is a monolayer of carbon atoms which exhibits some remarkable electronic and mechanical properties and many of these properties lend themselves to sensor applications.
Hill, Ernie W. +2 more
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This paper reviews the potential of graphene as a material for fabricating various types of sensors. Graphene is a monolayer of carbon atoms which exhibits some remarkable electronic and mechanical properties and many of these properties lend themselves to sensor applications.
Hill, Ernie W. +2 more
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ACS Nano, 2016
Large-area graphene has emerged as a promising material for use in flexible and transparent electronics due to its flexibility and optical and electronic properties. The anchoring of transition metal nanoparticles on large-area single-layer graphene is still a challenge.
Li, Xinlu +6 more
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Large-area graphene has emerged as a promising material for use in flexible and transparent electronics due to its flexibility and optical and electronic properties. The anchoring of transition metal nanoparticles on large-area single-layer graphene is still a challenge.
Li, Xinlu +6 more
openaire +3 more sources