CORE-Materials
Resource Finder
?
(0)
(2)
(0)
(0)
(0)
(0)
(0)
(6)
(0)
(0)
(0)
All
I want something that I can
use for commercial purposes
modify, adapt, or build upon
Searches currently query the database on resource
Title
,
Description
,
Classification
and
Keyword
fields
Does
not
systematically include author, affiliation or dates
Does
not
search the textual content of individual resources
Minimum word length of 3 characters in search field
Multiple words are treated on a 'AND' basis; use "double quotes" for exact phrase matching
Use 'OR' for optional search terms (e.g.
iron
OR
steel
)
Use minus sign to exclude words from search (e.g.
joining
−
welding
)
Predominantly British English
No spellchecking, "Did you mean...?", proximity or matches provided
To search for Greek characters, type 'beta', not β
Filter by topic
Definitions for your selected categories will be displayed
()
Tag Cloud
Al-Mg alloys
alloy
alumatter
aluminium
aluminium corrosion
aluminium fatigue
aluminium fracture
aluminium softening
aluminium surface properties
analysis
animation
corrosion
corrosion protection
equation
experiment
grain
iron
materials
metal
metals
micrograph
phase
polymer composite
SEM
shape
strengthening
structure
TEM
theory
Feed for results containing "graphene"
Displaying results 1-8 of 8
You might be interested in the following resource(s) which are subject to copyright.
BBC Four, How It Works: Graphene
Video clip from the BBC Four mini-series How It Works, presented by Mark Miodownik. In this extended clip from the programme, Mark talks to Professor Andre Geim at the University of Manchester about his work on graphene and how this amazing material can be produced by using nothing more than a piece of graphite and some sticky tape. [Only available to viewers in the UK]...
Creator:
Professor Mark Miodownik, University College London • Jacqueline Smith, BBC • Helen Thomas, BBC
Keywords:
graphite
•
graphene
•
sticky tape
Date added:
14 April 2012
3-D Rendering of a Graphene Hole
This 3-D rendering of a graphene hole imaged on Berkeley Lab's Transmission Electron Aberration-corrected Microscope (TEAM) 0.5 shows that the carbon atoms along the edge assume either a zigzag or an armchair configuration. The zigzag is the more stable configuration and shows promise for future spintronic technologies....
Creator:
Lawrence Berkeley National Laboratory, US Department of Energy
Keywords:
graphene
•
hole
•
zigzag
•
spintronic technology
•
TEAM microscope
•
transmission electron aberration-corrected microscope
Date added:
17 October 2011
Graphene Update
This resource is a presentation of the 2010 Nobel Laureate in Physics Prof. Andre Geim from The University of Manchester on Graphene Update. The presentation was given at the Topical Research Meeting on Physics: Graphene and Related Two Dimensional Materials at Institute of Physics on June 2nd of 2011. The lectures gives an overview why graphene is such a special materials and reports on the latest research results from The University of Manchester group. It also taks about the potential applica...
Creator:
Professor Andre K. Geim, The University of Manchester
Keywords:
graphene
•
carbon
•
Nobel prize
•
electronic properties
•
ambipolar electrical field effect
•
tunability
•
thermoconductivity
•
surface area
•
applications
Date added:
17 October 2011
Animation of graphene nanoribbon band structures for zigzag type
Graphene nanoribbon band structures for zigzag type. Tightbinding calculations show that zigzag type GNR is always metallic....
Creator:
Saumitra R Mehrotra, Purdue University • Gerhard Klimeck, Purdue University
Keywords:
graphene
•
nanoribbon
•
band structures
•
zigzag
Date added:
06 October 2010
Animation of graphene nanoribbon band structures for arm-chair type
Graphene nanoribbon band structures for arm-chair type. Tightbinding calculations show that armchair type can be semiconducting or metallic depending on width (chirality)....
Creator:
Saumitra R Mehrotra, Purdue University • Gerhard Klimeck, Purdue University
Keywords:
graphene
•
nanoribbon
•
band structures
•
armchair
Date added:
06 October 2010
Model of graphene structure
The ideal crystalline structure of graphene is a hexagonal grid....
Creator:
AlexanderAlUS,
Keywords:
graphene
•
crystal
•
structure
•
model
•
nano
•
image
Date added:
06 October 2010
Simulation of Individual Atoms in Action
This video shows the atomic dynamics of the hole in graphene was simulated via a kinetic Monte Carlo method. Probabilities for atomic migration, insertion and ejection were determined by ab-initio calculation. The simulation starts with a predefined hole in a graphene sheet. As it proceeds, the hole grows and the atoms along the edge rearrange themselves. The zigzag configuration is found to dominate the armchair one....
Creator:
Lawrence Berkeley National Laboratory, US Department of Energy
Keywords:
graphene
•
hole
•
zigzag
•
spintronic technology
•
Monte Carlo method
•
atomic dynamics
•
ab-initio calculation
•
atomic migration
•
atomic insertion
•
atomic ejection
Date added:
17 October 2011
Action Movie of Individual Atoms in Action
This video produced with Berkeley Lab's Transmission Electron Aberration-corrected Microscope (TEAM) 0.5 microscope shows the growth of a hole and the atomic edge reconstruction in a graphene sheet. An electron beam focused to a spot on the sheet blows out the exposed carbon atoms to make the hole. The carbon atoms then reposition themselves to find a stable configuration...
Creator:
Lawrence Berkeley National Laboratory, US Department of Energy
Keywords:
graphene
•
hole
•
zigzag
•
carbon atom
•
atomic edge;TEAM microscope
•
transmission electron aberration-corrected microscope
Date added:
17 October 2011
Displaying results 1-8 of 8
