Graphene nanomaterials /

Graphene nanomaterials /

Graphene Nanomaterials is expected to fill a void in knowledge among practitioners generated by the discovery of graphene as a distinct allotrope of carbon (2010 Nobel Prize in Physics) with the potential to affect further increases in speed of microprocessors beyond 30 petahertz. It has other inter...

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Bibliographic Details
Main Author: Sharma, Kal Renganathan (Author)
Format: Electronic eBook
Language:English
Published: New York, [New York] (222 East 46th Street, New York, NY 10017) : Momentum Press, 2014.
Series:Nanomaterials collection.
Subjects:
Graphene.
Nanostructured materials.
single-layer graphenes
barristor
ultracapacitor
carbon allotrope
thinnest material
deposition
milling
scotch tape
honey comb structure
2D lattice
unscrolled CNT
industrial electronics
nanomaterials
transparent electrodes and other applications
cost of production
roll-to-roll transfer and other fabrication processes
APFR
diffusion times
Raman spectroscopy
TEM, HeIM and other characterization methods
hexagonal anion rings
magnetic, surface, electrical, and mechanical properties
quantum hall effect
electrorheological properties
catalysts
thermodynamic stability-free energy of reaction
scroll stability
surface reactivity
interfacial stability
edge stability
metastability
defects
Online Access:An electronic book accessible through the World Wide Web; click to view
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Summary:Graphene Nanomaterials is expected to fill a void in knowledge among practitioners generated by the discovery of graphene as a distinct allotrope of carbon (2010 Nobel Prize in Physics) with the potential to affect further increases in speed of microprocessors beyond 30 petahertz. It has other interesting performance properties. Identified in 2004, currently the number of patents in graphene is 7,351 and the number is rising rapidly. This book provides information on the synthesis, characterization, application development, scale-up, stability analysis using a pencil and paper, and structure-property relations. With less than 24,000 atoms/25 nm, the nanosheet form is metastable. Thirty-nine different nanostructuring methods were reviewed in an earlier book including epitaxy, lithography, deposition, exfoliation, etc. With the thickness of only a few atomic layers, graphene has superior field emitter properties, is 100 times stronger than steel, flexible as rubber, tougher than diamond, and is 13 times more conductive than copper. Electron mobility in graphene has been found to be 200,000 cm2V-1s-1.
Physical Description:1 online resource (xiv, 199 pages) : illustrations.
Also available in print.
Format:Mode of access: World Wide Web.
System requirements: Adobe Acrobat reader.
Bibliography:Includes bibliographical references (pages 187-194) and index.
ISBN:9781606504772
Access:Restricted to libraries which purchase an unrestricted PDF download via an IP.

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