Published on: Mar 3, 2016
Transcripts - Nanocomposites gopi
V. Gopi Krishna.
• The term "Nanotechnology" was invented by
Taniguchi in 1974
• Nano science is the study of phenomena and
manipulation of materials at atomic, molecular
and macromolecular scales, where properties
differ significantly from those at a larger scale;
application of materials and systems by
controlling the size at nanometer scale.
• A nanometer is so small that we cannot see
something of this size without the use of very
powerful microscopes. It is used to measure
things that are very tiny i.e. atoms and
• Materials at this scale behave very differently
from when they are in larger form.
• This technology offers better built, long
lasting, cleaner, safer and smarter products for
the home, for medicine, for agriculture, for
communication and for industry in general.
Applications of Nano technology
• A nanocomposite is a matrix to which
nanoparticles have been added to improve a
particular property of the material less than
100 nanometers (nm), or structures having
Nano-scale repeat distances between the
different phases that make up the material.
• The properties of nanocomposite have caused
researchers and companies to consider using
this material in several fields.
• In mechanical terms, nanocomposite differ
from conventional composite materials due to
the exceptionally high surface to volume ratio
of the reinforcing phase and/or its
exceptionally high aspect ratio.
• Nanocomposite are found in nature, for
example in the structure of the bone.
• Large amount of reinforcement surface area
means that a relatively small amount of nanoscale
reinforcement can have an observable effect on
the macro scale properties of the composite.
• For example, adding carbon nanotubes improves
the electrical and thermal conductivity.
• Other kinds of nanoparticulates may result in
properties, heat resistance or mechanical
properties such as stiffness, strength and
resistance to wear and damage
Use and applications
• Producing batteries with greater power
output. Researchers have developed a method
to make anodes for lithium ion batteries from a
composite formed with silicon nanospheres
and carbon nanoparticles. The anodes made of
the silicon-carbon nanocomposite make closer
contact with the lithium electrolyte, which
allows faster charging or discharging of power.
• Speeding up the healing process for broken
bones. Researchers have shown that growth of
replacement bone is speeded up when a
nanotube - polymer nanocomposite is placed
as a kind of scaffold which guides growth of
replacement bone. The researchers are
conducting studies to better understand how
this nanocomposite increases bone growth.
• Producing structural components with a high
strength-to-weight ratio. For example an
epoxy containing carbon nanotubes can be
used to produce nanotube-polymer composite
windmill blades. This results in a strong but
lightweight blade, which makes longer
windmill blades practical. These longer blades
increase the amount of electricity generated by
• Using nanocomposite to make flexible
batteries. A nanocomposite of cellulous
materials and nanotubes could be used to make
a conductive paper. When this conductive
paper is soaked in an electrolyte, a flexible
battery is formed.