nanostructures and solids with low-dimensional...
TRANSCRIPT
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Chapter 10: Nanostructures and Solids with
Low-Dimensional Properties
Nanoscience: the study of phenomena and manipulation of materials at atomic, molecular, and macromolecular scales, where properties differ significantly from those at larger scale.
Nanotechnology: the production and application of structures, devices, and systems for controlling shape and size at the nanometer scale.
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How big is a nanometer?
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Using Light to See
Using Electrons to See
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Touching the surface
www.nature.com/nmat/journal/v6/n9/fig_tab/nmat1957_F1.html
Nanoparticle morphology
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Electronic Structure
bulk quantum well
quantum wire quantum dot
Electronic Structure
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Semiconducting nanotube
Electronic Structure
Optical Properties
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Nanoparticles CdSe
Smallest nanoparticles resemble molecular absorptions
Larger nanoparticles have featureless absorptions resemble bulk solid
Nanogold
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Optical properties
Zinc oxide
Magnetic properties
Solid Dc (nm)Fe 14Co 70Ni 55Fe3O4 55
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Physical Properties:
Melting Point
macroscale nanoscaleMajority of atoms are: almost all inside the
objectsplit between the inside and the surface
Changing an object’s size:
has minimal effect on the % of atoms on the surface
has a substantial effect on the % of atoms on the surface
The melting point: doesn’t depend on size
is lower for smaller particles
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Fabrication Methods
Self Assembly by Crystal Growth
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Graphite
Intercalation Compounds of Graphite
KC8
CaC8
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chevroletvoltage.com
“Each Volt’s battery cell contains a carbon anode (the negative electrode), a manganese-based cathode (the positive electrode) and a safety reinforced separator, which provides the medium for the transfer of electrical charge ions between the anode and the cathode inside the battery cell.”
Buckminster Fullerene
K3C60
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Armchair nanotubes are metallic. Zig-zag and chiral nanotubes can be either metallic or semiconducting.
zig-zag armchair chiral
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Arc-discharge
Laser Furnace
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•Hydrocarbon vapor passed through a tube furnace. •SWNTs or MWNTs depends on size and temperature of catalyst (Fe, Ni with NH3). •Low-temperature (600-900°C) yields MWNTs, higher temperature (900-1200°C) favors SWNTs.
Chemical vapor deposition
Carbon Nanotube Growth
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Problems with CNT production•Mixture of metallic and semiconducting •Alignment and positioning
A breakthrough?•ST-cut single crystal quartz substrates •ethanol/methanol as carbon source •Cu nanoparticles as catalysts
Results•1.55 to 1.78 nm diameter SWNT •95% semiconducting •CNT aligned
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Teflon Coated CNT Forest
Spinning Carbon Nanotubes
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Space Elevator
Space Elevator Cable
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Photolithography
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Polyacetylene
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Conducting polymers: Repeating units
Bonding in Polyacetylene
E
Peierls’ Theorem
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Metal
Conjugated polymer
Glass
ITO
Organic Polymer LED
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Gao, F. G.; Bard, A. J. J. Am. Chem. Soc. 2000, 122, 7426.
Organic LED
www.mrsec.wisc.edu/Edetc/SlideShow/slides/oLED/oLEDspin_mov.htmlwww.mrsec.wisc.edu/Edetc/SlideShow/slides/oLED/oLEDevap_mov.html
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OLED vs. LCD
Advantages• no backlight or polarizer• wider viewing angle• lower power consumption• easier processing• thinner and lighter• faster response time
Disadvantages• lifetime and color stability• newer technology
OLED TV
Sony 11-inch OLED TV is 3 mm thick with a 1,000,000:1 contrast ratio.
OLED MP3/Video Player
Cowon S9 16 GB
Nokia 7500 Prism Tri-Band GSM Phone
OLED Phone
iriver Clix Rhapsody
Keyboard Extender
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Flexible OLED and Roll-to-Roll Manufactured OLEDs
Molecular metals – 1D
molecular nanowires
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Molecular metals – 2D
TMTSF BEDT-TTF
β-(BEDT-TTF)2I3
Polymers and Ionic Conduction Rechargeable Lithium Batteries
Li(s) Li+ (solv) + e- and xLi+(solv) + TiS2(s) + xe- LixTiS2(s)
Overall: xLi(s) + TiS2(s) LixTiS2(s)
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AFM Probe Tip 600 nm deep trenches;250 nm wide
mage using conventional tip