Construction method of steel structure space frame .pptx
Nanotechnology and its futuristic usage DOC-20220309-WA0012..pptx
1. NANOTECHNOLOGY
Veer Surendra Sai
University of Technology,
Burla
Department of
Production Engineering
Presented by:
Rishav Mishra
Regd no : 1802111044
Department of production engineering
3. INTRODUCTION-
Nanotechnology has enormous potential to change society and it
involves manipulation of objects on the automic level.
The products will be build on every atom that are stronger, smarter,
cheaper, cleaner, and more precise. Nanotechnology is the art and
science of manipulating matter at the nanoscale (down to 1/100,000
the width of a human hair) to create new and unique materials and
products.
“Nanotechnology is the understanding and control of matter at
dimensions of roughly 1 to 100 nanometers, where unique phenomena
enable novel applications.
Encompassing nanoscale science, engineering and technology,
nanotechnology involves imaging, measuring, modeling, and
manipulating matter at this length scale.”
4. ORIGIN OF NANOTECHNOLOGY-
Noble prize winner Richard Feynman first conceived the idea of molecular
manufacturing in his 1959 speech, “There's Plenty of Room at the Bottom."
Richard Feynman was the first scientist to suggest that devices and
materials could someday be fabricated to atomic specifications
In 1986, K. Eric Drexler wrote "Engines of Creation" and introduced the
term nanotechnology from there Scientific research really expanded over
the last decade
5. ADVANTAGES-
Nanotechnology is suitable for low-cost and high-volume
production.
It has a reduced size, mass, and power consumption
It has high functionality.
It has advanced features like reliability and robustness.
6. DISADVANTAGES-
Loss of jobs (manufacturing, farming, etc)
Atomic weapons more accessible and destructive
Nanotechnology cannot solve all our present issues.
There is a problem in testing a billion molecules
electronic circuit.
The computing of nanoscale is amorphous.
It has the “price of programmability.”
7. APPLICATION-
In the improved transportation like the intelligent cars
In nanocomposites
In the atom computers
In the memories that have the high storage capacity
In the molecular electronics
In the military
In the smart furnitureIn solar energy
In the medical uses
8. Govt. POLICY-
The Government of India has made Rs. 1000 crore investments in
Nanotechnology
Karnataka is planning to set up country's first nano park in Bangalore
Govt of Andhra Pradesh is planning to set up Nano-technology Park in 350
acre in Hyderabad
The focus of Nanotechnology Initiatives Division has been towards
development of an eco-system for semiconductor manufacturing in India
through cutting edge research in nanoelectronics, developing products/
devices for meeting the societal requirements in the country and creating
world class fabrication facilities at Nano level.
9. FUTURE OF NANOTECHNOLOGY-
Nanotechnology may be able to create many new materials and devices
with a vast range of application.
Nanotechnology will redesign the future of several technologies, products
and markets.
Scientists and engineers can now work with materials at the atomic level
to create stain-proof fabrics, scratch-resistant paints, more efficient fuel
cells and batteries
Experts says that nanotechnology will likely create the next generation of
billionaires and reshape global business
Industry Analysts Predict Revenues from Products Incorporating
Nanotechnology to Reach Close to $3 Trillion US Within 10 Years.
10. CONCLUSION-
Nanotechnology offers the ability to build large numbers
of products that are incredibly powerful
Nanotechnology is heavily intertwined with biotechnology
and information technology, making its scope very wide
The nanotechnology industry is mainly used to create new
world.
Nanotechnology also has some limitations in todays world.