This document discusses nanostructures, their synthesis, and surface modification techniques. It defines nanostructures as having at least one dimension between 1-100 nm. Nanostructures are classified based on dimensionality as 0D, 1D, 2D, and 3D. Common synthesis methods include physical vapor deposition, chemical vapor deposition, and thermal spraying. Surface modification is done to change properties like reactivity, roughness, and corrosion protection. Common modification techniques are thermal spraying, PVD, and CVD.
3. What is Nano and Nano particle?
Nano- (symbol n) is a unit prefix meaning "one billionth".
One nanometer is equivalent to a billionth of a meter.
A nanoparticle is a microscopic particle with at least one dimension less
than 100 nm.
Nanoparticles are of great scientific interest as they are effectively a bridge
between bulk materials and atomic or molecular structures.
Nanoparticles exhibit a number of special properties relative to bulk
material.
For example, the bending of bulk copper (wire, ribbon, etc.) occurs with
movement of copper atoms/clusters at about the 50 nm scale.
Copper nanoparticles smaller than 50 nm are considered super hard materials
that do not exhibit the same malleability and ductility as bulk copper.
4. Nano particles have a relative larger surface area when compared to the same
volume of the material.
Its means that when given volume is divided into smaller pieces, the surface area
increases. Therefore as particle size decreases, a greater portion of the atoms are
found at the surface compared to those inside and nanomaterials have a much
greater surface area per unit volume compared with the larger particles.
For example, a particle of size 30 nm has 5% of its atoms its surface.
At 10 nm 20% of its atoms on its surface
But at the size of 3 nm, 50% of its atoms on its surface.
A bulk material should have constant physical properties regardless
of its size, but at the nano-scale this is often not the case.
Size-dependent properties are observed such as quantum confinement in
semiconductor particles, surface plasmon resonance in some metal particles
and superparamagnetism in magnetic materials.
5. Size dependent properties of nanoparticles are:
1. Chemical properties ---- reactivity, catalysis
2. Thermal properties --- melting point
3. Mechanical properties --- adhesive force, capillary forces
4. Optical properties --- scattering of light
5. Electrical properties --- tunneling current
6. Magnetic properties --- super magnetic effect
New properties enable new applications and
it opens a whole new area for researchers… … …
…
6. Nano structure
A nanostructure is a structure of intermediate size between
microscopic and molecular structures.
Nanostructures refer to materials or structures that have at least one
dimension between 1 and 100 nm.
Nanostructures based on naturally and artificially organic materials,
such as nanoparticles, nanomicelles etc.
Classification of nanostructure
According to the dimensionality of nanostructure, nanostructural
material (NSM) are of following type.
0d NSM
1d NSM
2d NSM
3d NSM
7. SEM and TEM image
of different types of
0D NSMs, which is
synthesized by several
research groups.
A. Quantum dots
B. Nanoparticles
arrays,
C. Core–shell
nanoparticles,
D. Hollow cubes, and
E. Nanospheres.
Examples of Zero dimensional NSM
8. Examples of 1d NSM
Typical SEM image
of different types of
1D NSMs, which is
synthesized by
several research
groups.
A. Nanowires,
B. Nanorods
C. Nanotubes
D. Nanobelts
E. Nanoribbons
and
F. Hierarchical
nanostructure
s
9. Examples of 2d NSM
Typical SEM and TEM
image of different kinds
of 2D NSMs, which is
synthesized by our and
several research groups.
A. Junctions
(continuous
islands),
B. Branched
structures
C. Nanoplates
D. Nanosheets
E. Nano walls and
F. Nano disks
10. Examples of 3d NSM
Typical SEM and
TEM image of
different kinds of 3D
NSMs, which is
synthesized by our
and several research
groups.
A. Nanoballs
(dendritic
structures)
B. Nanocoils
C. Nanocones
D. Nanopillers and
E. Nanoflowers
11. Nano structure Synthesis
There are various methods of synthesis of NSM. Methods are given
below:
Physical methods
1. Evaporation technique
2. Sputtering technique
3. Lithography process
4. Hot and cold plasma
5. Spray pyrolysis
6. Inert gas phase condensation
technique
7. Pulsed laser ablation
Chemical methods
1. Lyotropic liquid crystal templates
2. Electroless decomposition
3. Hydrothermal and solvothermal
techniques
4. Sol-gel techniques
5. Chemical vapour decomposition
6. Laser pyrolysis
7. Laser chemical vapor decomposition
technique
12. Synthesis of Nano structure
Chemical method: chemical vapor
decomposition
A predefined mix of reactant gases and
diluent inert gases are placed into the
chamber by the mass flow controller at a
specified flow rate.
The gas species move to the surface site.
The reactants get adsorbed on the surface
site.
The reactants undergo chemical reactions
with the substrate to form the NSMs.
The gaseous reaction products are
desorbed and evacuated from the chamber.
Fig: Schematic diagram of the CVD experimental set-
up.
13. Surface modification
Surface modification is the process of modifying the surface of a
material by physical and chemical method.
It is usually made to solid materials, but it is possible to find examples of the
modification to the surface of specific liquids.
Properties, which can be improved or changed:
Surface charge
Reactivity
Corrosion protection
Roughness
Hydrophilicity
Surface energy
15. Thermal spraying
• Fig. 1 shows that the
chemical energy of
combustion of the fuel
gas in oxygen is used to
generate a hot flame.
• Feedstock material in
the form of a wire or
powder is melted or
softened by flame or
electricity and propelled
onto the work piece to
form a coating.
Fig. 1: Schematic diagram of Thermal Spray
16. References
Jitendra N. Tiwari, Rajanish N. Tiwari, Kwang S. Kim, 2011, “Zero-dimensional,
one-dimensional, two-dimensional and three-dimensional nanostructured
materials for advanced electrochemical energy devices”, Elsevier, volume
57,Pages 724-803 (https://doi.org/10.1016/j.pmatsci.2011.08.003)
Vineet Shibe,Vikas Chawla,2014,“A Review of Surface Modification Techniques
in Enhancing the Erosion Resistance of Engineering Components”,
https://www.researchgate.net/publication/319207272
BASF( https://www.basf.com/global/en/who-we-are/sustainability/responsible-
partnering/nanotechnology/what-is-nano.html )
Science daily ( https://www.sciencedaily.com/terms/nanoparticle.htm )
ScienceDirect ( https://www.sciencedirect.com/topics/materials-
science/nanostructure )