jun yan university of massachusetts amherst 2015 summer institue on nanoscience
TRANSCRIPT
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JUN YAN UNIVERSITY OF MASSACHUSETTS AMHERST
SCIENCE OF TWO DIMENSIONAL MATERIALS
2015 SUMMER INSTITUE ON NANOSCIENCE
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A reminder of oleic acid molecule
Water molecule (polar)
Water molecules in a tray.
Polar end of oleic acid molecule: hydrophilic
Non-polar end of oleic acid molecule: hydrophobic
1.97 nm
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From nano to sub-nano
1.97 nm
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From nano to sub-nano
Benzene molecule: a very thin and flat disk! The thickness is less than 1 nm – sub-nano!
120º
120º
120º
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Graphene!
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Graphene is a single atomic sheet of graphite
Layered structure of graphiteCarbon atomic layers slide with respect to each other under shear force during writing
Writing makes graphene: a single atomic layer of graphite!
0.335nm
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How do we make graphene?
graphite
Silicon chip
Scotch tape
100μm
100μm
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2010: Nobel award over flake of carbon
Andre Geim Konstantin Novoselov
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How to make large size graphene?
Chemical vapor deposition: breaking the methane (CH4) apart at high temperature!
~1000 Cº Samsung, Korea
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Graphene for flexible touch screenElectrical conductive and mechanically flexible and robust
Flexible touch screen
Tensile strain 18.7%
In salt water 3.5% NaCl
Corrosion resistant
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Exercise: how much graphene do we need to cover the empire state building with graphene touch screen?
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See graphene
By eye
100μm
100μm
By optical microscope
By atomic force microscope
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How to see the carbon atoms in graphene?
Transmission electron microscope
TEM image of graphene
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‘Seeing’ the carbon atoms of graphene
Scanning tunneling microscope STM images
Brian LeRoy U. Arizona
Joe StrocioNIST
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Exercise: how much graphene do we need to cover the surface of the empire state building?
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Exercise: how much graphene do we need to cover the surface of the empire state building?
1st task: find the density of carbon atoms, i.e. number of carbon atoms per unit area
Observation: periodicity! (property of a crystal)
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Exercise: how much graphene do we need to cover the surface of the empire state building?
Let’s start from one hexagon:
How many carbon atoms are there in each hexagon?
6×13=2
What is the area of each hexagon?
6× √34×(0.14𝑛𝑚)2=0.05𝑛𝑚2
Next the empire state building:
Height: 381 m; length: 129.2 m; width: 57 m
2×129.2×381+2×57×381+1×129.2×57=149,248.8𝑚2≈1.5×105𝑚2
What is its surface area (excluding the bottom surface)?
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How many carbon atoms do we need?
Consider carbon atoms with 6 protons and 6 neutrons
6×102 4 6×1023 ×12𝑔𝑟𝑎𝑚=120𝑔𝑟𝑎𝑚
The amount of graphene we need is:
=
6×1023 (1 mol) carbon atoms weigh 12 gram
Exercise: how much graphene do we need to cover the surface of the empire state building?
1𝑛𝑚2=10−18𝑚21𝑛𝑚=10− 9𝑚
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2D materials beyond graphene:
Carbon atomBoron atom
Nitrogen atom
2D? yes yes
Conducts electricity? yes no
Graphene Boron nitride
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2D materials beyond graphene:
Carbon atomBoron atom
Nitrogen atom
2D? yes yes
Conducts electricity? yes no
Very different properties!
Graphene Boron nitride
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Another 2D materials: MoS2
Dry lubricant
Also a 2D material, each unit has three atomic layers, with molybdenum sandwiched by sulfur atoms.
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Another 2D materials: MoS2
Occurs in nature
Single layer MoS2
Multi-layer MoS2
Si/SiO2 substrate
Sample produced by the ‘scotch tape method’
Electrical property?
Between graphene and boron nitride.
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The 2D zooLasagna
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The 2D zooAtomic lasagna
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Having fun with 2D materials
Moire patterns as can be seen in STM measurements.
Electrical measurement of graphene on boron nitride.
B. Leroy, Arizona C. Dean, Columbia X. Duan, UCLA
Light emission diode made from MoS2-WSe2 atomic stacks.
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Thank you!