2. Nanomaterials
• Nanomaterial are characterized by at least one
dimension in the Nanometer range.
• Carbon is the key element in Nanotechnology and
so sometime nanotechnology also called carbon
Nanotechnology.
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3. Two principal factors cause the properties of
nanomaterials to differ significantly from Bulk
materials:
1. Increased relative surface area
2. Quantum effects.
These factors can change or enhance
properties such as reactivity, strength and
electrical characteristics.
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4. Surface Effects
• As a particle decreases in size, a greater
proportion of atoms are found at the surface
compared to those inside. For example, a
particle of
• Size-30 nm-> 5% of its atoms on its surface
• Size-10 nm->20% of its atoms on its surface
• Size-3 nm-> 50% of its atoms on its surface
• Nanoparticals are more reactive than large
particles (Catalyst)
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5. Quantum Effects
Quantum confinement
The quantum confinement effect can be observed once the
diameter of the particle is of the same magnitude as the
wavelength of the electron Wave function.
Quantum confinement is responsible for the increase of
energy difference between energy states and band gap. A
phenomenon tightly related with the optical and electronic
properties of the materials.
When materials are this small, their electronic and optical
properties deviate substantially from those of bulk
materials.(GOLD)
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8. Graphene
• Monolayer of 2-D lattice of SP2 bonded carbon
atoms
• Bond Length approximately 0.14 nm
• Produced by mechanical cleavage of Graphite
• It is a gapless semiconductor
• Very promising to make ballistic field effect
transistor, can be used for development of carbon
transistor
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9. Carbon Nanotubes(CNT)
• It is single sheet of graphite rolled into a tube,
both ends of which are capped with fullurene
hemisphere.
• Length is much greater than diameter.
• Extremely strong, stiff and relatively ductile.
• These have relatively low density
• So also termed as Ultimate fibre as extremely
promising as reinforcement.
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10. Quantum Dots
• Quantum dots (QD) are very small particles, so
small that their optical and electronic
properties differ from those of larger particles.
• Quantum dots are also sometimes referred to
as artificial atoms.
• These are semiconductor nanocrystals.
• It emits specific wavelength of electro
magnetic radiation depending
on its size.
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11. Properties
Optical
• Optical properties depends on
quantum size
Electrical
• Can store considerably more energy
due to more surface area
Chemical
• Higher surface to volume ratio
responsible for higher reactivity
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13. What is a Metamaterial?
A periodic material that derives its
properties from its structure rather
than its components.
14. • A metamaterial ( Greek word μετά meta,
meaning "beyond") is a material engineered
to have a property that is not found in nature.
• The materials are usually arranged in
repeating patterns, at scales that are smaller
than the wavelengths of the phenomena they
influence.
• Metamaterials derive their properties not
from the properties of the base materials, but
from their newly designed structures.
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15. Their precise shape, geometry, size, orientation and
arrangement gives them their smart properties
capable of manipulating electromagnetic waves: by
blocking, absorbing, enhancing, or bending waves,
to achieve benefits that go beyond what is possible
with conventional materials.
• Can achieve negative index of refraction, zero
index of refraction, magnetism at optical
frequencies, etc.
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17. Example: How to achieve negative index of
refraction
• negative refraction can be achieved when both
µr and εr are negative
negative µr and εr occur in nature, but not
simultaneously
silver, gold, and aluminum display negative εr at optical
frequencies
-
rrn
1/2 /2 /2
( )( ) ( )( ) 1j j j j j
r r e e e e e
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How
Metamaterials
trick light?
Lights get bend which is collective and combined
effect of all the water molecules that is interacting
with light and so it bends.
Fig: Positive Index of Refraction
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Fig: Negative Index of Refraction
Light gets bend otherway. This is because it is
a negative index metamaterials.
20. Invisibility
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When a light beam heat
or excite a materials, Its
surface reflects and
scatters around all the
wave that is interacting
with it. And our
eyes are able to pickup
a portion of scattering
wave
and so we are able to see
it.
21. • If we can avoid all the interaction between light and
object or cancel all the scattered wave , the object can
become invisible.
• We want to eliminate whole scattered wave around the
object including the shadow on the back of the object
so to make object completely undetectable.
• Possible by designing Metamaterials that would scatter
a form of negative light opposite to that of object then
by balancing the positive light scattered from the
object and negative light scattered from Metamaterials
, It may be able to cancel the whole scattered wave and
the light gets through the object without being
detected.
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24. Application of Metamaterials
Bend light to effectively create an invisibility cloak
Construct satellite trackers that never need to move.
Similar technology could serve as portable, energy-
efficient satellite communication units for soldiers on
the battlefield.
Enable ultra-fast data processing. Metamaterials
could also reduce the size of chips so that they'd be
tiny and speedy.
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25. Beam broadband connections to planes, trains, ships
and cars. Imagine having internet access, well,
everywhere.
Create a camera that uses compressed microwave
images without a lens or moving parts. This could
replace the bulky gateways currently in use at airports.
Become the building blocks for a high-speed fiber-
optic telecommunications network
Contribute to making efficient solar cells less bulky
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26. Questions
1. What factors enhance the properties of
Nanomaterials?
2. Classify nanomaterial citing example of each.
3. Write Short notes on Graphene, CNT and
Quantum Dots.
4. Mathematically show how negative refractive
index achieved in Metamaterials?
5. Illustrate the concept of Invisibility?
6. What are the application of Metamaterials?
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Editor's Notes
Ballistic Transistor : They use electromagnetic forces instead of a logic gate
Colour depends on quantum dots size, same materials can exhibit different colour. At nanoscale gold can appear red, blue, yellow etc