Nano technology;
What is nanomaterial?;
Nano scale;
Nanoscience;
Nano Particles;
ddu nano-science technology;
nano material types;
Nano tubes;
nano dots;
nano wires;
Nano technology applications;
Nanotechnology in Agriculture;
nano technology in Automobiles;
nano technology in health care;
nano technology in textiles;
Nano technology in food processing;
nano technology in smart devices;
nano technology in energy sector; DDU-Shah & Schulman Nanotechnology Center; references; nano technology in India;
This Presentation is based on our Research work carried out in GNDU Amritsar and DAVIET, Jallandhar. We fabricated Ion track filters; nanowires and some Exotic Patterns for the first time in India using simple Techniques.
This Presentation is based on our Research work carried out in GNDU Amritsar and DAVIET, Jallandhar. We fabricated Ion track filters; nanowires and some Exotic Patterns for the first time in India using simple Techniques.
What is nanotechnology?
History
Nanoscale
Manufacturing at the nanoscale
Working at the nanoscale
Size of the nanoscale
Application
Conclusion
References
Revolution of Nanotechnology:
Theory and Application
2016
Dr. nat.Sci. Ahmed Abdel-Megeed
Ph.D Germany, Hamburg University
Associate Professor, Plant Protection Dept.
Faculty of ِِِAgriculture- Alexandria University
Alexandria, Egypt
P.O. BOX 21531
Homepage: http://faculty.ksu.edu.sa/75164/default.aspx
The design, characterization, and application of structures, devices, and systems by controlled manipulation of size and shape of materials at the nanometer scale (atomic, molecular, and macromolecular scale
When to be silent?;
Circumstances to remain silent;
Situations to be silent;
Silent at some points;
Silent in a few circumstances;
time to remain silent;
remain silent in these situations; a guide to remain silent against whom and when?
What is nanotechnology?
History
Nanoscale
Manufacturing at the nanoscale
Working at the nanoscale
Size of the nanoscale
Application
Conclusion
References
Revolution of Nanotechnology:
Theory and Application
2016
Dr. nat.Sci. Ahmed Abdel-Megeed
Ph.D Germany, Hamburg University
Associate Professor, Plant Protection Dept.
Faculty of ِِِAgriculture- Alexandria University
Alexandria, Egypt
P.O. BOX 21531
Homepage: http://faculty.ksu.edu.sa/75164/default.aspx
The design, characterization, and application of structures, devices, and systems by controlled manipulation of size and shape of materials at the nanometer scale (atomic, molecular, and macromolecular scale
When to be silent?;
Circumstances to remain silent;
Situations to be silent;
Silent at some points;
Silent in a few circumstances;
time to remain silent;
remain silent in these situations; a guide to remain silent against whom and when?
Spiritual;
Social;
Hinduism;
Know Hinduism;
What is Hinduism?;
Sanatana Dharma;
Why sanatana Dharma?;
What is special in Sanatana Dharma?;
Special @ Sanatana Dharma;
Why adopt Hinduism?;
Why adopt Sanatana Dharma? ;
Philosophy of Sanatana Dharma;
Philosophy of life;
Effect of gradation of sands;
Particle size effect on DCP;
Relative density of sand;
ASTM D6951-03;
Depth of penetration vs blows;
DCP vs Relative density;
DCP index vs gradation of sand;
Experimental Investigation;
Conference paper;
year 2017; Effect of Gradation and Particle Size on
Correlations between DCP Index and Relative density of sands
Presiding duty for the 2024 election;
Key Points;
Points to take care of: Presiding officer;
Presiding Key Points;
Things to carry- for officers:
Presiding officer duty list;
Gujarati presiding officer duty;
All instructions and flow chart in Gujarati,
Gujarati: presiding officer Key Points;
Indian Traditional jewelry;
pre-independence era jewelry design;
Indian ornament design;
100-year-old Indian jewelry
Usefulness of ancient indian Jwelry design;
One more chance
Philosophy of life;
How conscious we?
For conscious human beings only,
way of life; Live your life;
Enjoy being human being;
What happens when we are dead?
What do we achieve in life?
Pre-Independence Toys and Crafts designs in India.pptxSamirsinh Parmar
Pre-independence toys;
Crafts and Toys of India;
Toys and Crafts before 1947 In india;
Toys and crafts in India;
Traditional toys of India
Traditional wooden toys in India;
Traditional clay toys of India;
Traditional metal toys of India;
INTRODUCTION TO GLOBAL POSITIONING SYSTEM (GPS).pptxSamirsinh Parmar
What is GPS?;
Definition of GPS;
GPS;
Global Positioning System;
How GPS works?;
Working principle-GPS;
One way ranging;
Determining the position;
The clock problem;
PRC amplification;
Pseudo-range;
Different types of GPS locations;
NAVSTAR System;
Accuracy of GPS;
Applications of GPS; Advantages of One-Way Ranging; Pseudo Random Code;
PRC;
BEAUTY OF MATHEMATICS- Tricks of Calculations.pptxSamirsinh Parmar
The beauty of mathematics
Mathematics thumb rules;
Tricks in mathematics;
Easy math calculations
Vedic Mathematics;
Joy of numbers in Math;
Enjoying tricks in Math; mathematics, and English aplhabets; relation of attitude, hardwork, blessings of God, etc.
TIBETIAN PERSONALITY TEST - FEW QUESTION ANSWERSSamirsinh Parmar
Tibetian personality test;
Know your personality;
Know your preferences in life;
Know to whom you love;
Questions and Answers;
Spare some time; Share it to your near and dear; Know who loves you?
The Endangered And Extinct Languages Of India.pptxSamirsinh Parmar
The Endangered Languages;
Indian Languages- Extinction;
Maithili;
Magadhi;
Bhojpuri;
Extincted Languages of India;
Reasons of Extinction of Languages;
How to save languages from extinction ?;
Contribution to stop extinction of languages;
UNESCO report on extinct languages
In his public lecture, Christian Timmerer provides insights into the fascinating history of video streaming, starting from its humble beginnings before YouTube to the groundbreaking technologies that now dominate platforms like Netflix and ORF ON. Timmerer also presents provocative contributions of his own that have significantly influenced the industry. He concludes by looking at future challenges and invites the audience to join in a discussion.
UiPath Test Automation using UiPath Test Suite series, part 6DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 6. In this session, we will cover Test Automation with generative AI and Open AI.
UiPath Test Automation with generative AI and Open AI webinar offers an in-depth exploration of leveraging cutting-edge technologies for test automation within the UiPath platform. Attendees will delve into the integration of generative AI, a test automation solution, with Open AI advanced natural language processing capabilities.
Throughout the session, participants will discover how this synergy empowers testers to automate repetitive tasks, enhance testing accuracy, and expedite the software testing life cycle. Topics covered include the seamless integration process, practical use cases, and the benefits of harnessing AI-driven automation for UiPath testing initiatives. By attending this webinar, testers, and automation professionals can gain valuable insights into harnessing the power of AI to optimize their test automation workflows within the UiPath ecosystem, ultimately driving efficiency and quality in software development processes.
What will you get from this session?
1. Insights into integrating generative AI.
2. Understanding how this integration enhances test automation within the UiPath platform
3. Practical demonstrations
4. Exploration of real-world use cases illustrating the benefits of AI-driven test automation for UiPath
Topics covered:
What is generative AI
Test Automation with generative AI and Open AI.
UiPath integration with generative AI
Speaker:
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
Full-RAG: A modern architecture for hyper-personalizationZilliz
Mike Del Balso, CEO & Co-Founder at Tecton, presents "Full RAG," a novel approach to AI recommendation systems, aiming to push beyond the limitations of traditional models through a deep integration of contextual insights and real-time data, leveraging the Retrieval-Augmented Generation architecture. This talk will outline Full RAG's potential to significantly enhance personalization, address engineering challenges such as data management and model training, and introduce data enrichment with reranking as a key solution. Attendees will gain crucial insights into the importance of hyperpersonalization in AI, the capabilities of Full RAG for advanced personalization, and strategies for managing complex data integrations for deploying cutting-edge AI solutions.
Enchancing adoption of Open Source Libraries. A case study on Albumentations.AIVladimir Iglovikov, Ph.D.
Presented by Vladimir Iglovikov:
- https://www.linkedin.com/in/iglovikov/
- https://x.com/viglovikov
- https://www.instagram.com/ternaus/
This presentation delves into the journey of Albumentations.ai, a highly successful open-source library for data augmentation.
Created out of a necessity for superior performance in Kaggle competitions, Albumentations has grown to become a widely used tool among data scientists and machine learning practitioners.
This case study covers various aspects, including:
People: The contributors and community that have supported Albumentations.
Metrics: The success indicators such as downloads, daily active users, GitHub stars, and financial contributions.
Challenges: The hurdles in monetizing open-source projects and measuring user engagement.
Development Practices: Best practices for creating, maintaining, and scaling open-source libraries, including code hygiene, CI/CD, and fast iteration.
Community Building: Strategies for making adoption easy, iterating quickly, and fostering a vibrant, engaged community.
Marketing: Both online and offline marketing tactics, focusing on real, impactful interactions and collaborations.
Mental Health: Maintaining balance and not feeling pressured by user demands.
Key insights include the importance of automation, making the adoption process seamless, and leveraging offline interactions for marketing. The presentation also emphasizes the need for continuous small improvements and building a friendly, inclusive community that contributes to the project's growth.
Vladimir Iglovikov brings his extensive experience as a Kaggle Grandmaster, ex-Staff ML Engineer at Lyft, sharing valuable lessons and practical advice for anyone looking to enhance the adoption of their open-source projects.
Explore more about Albumentations and join the community at:
GitHub: https://github.com/albumentations-team/albumentations
Website: https://albumentations.ai/
LinkedIn: https://www.linkedin.com/company/100504475
Twitter: https://x.com/albumentations
Epistemic Interaction - tuning interfaces to provide information for AI supportAlan Dix
Paper presented at SYNERGY workshop at AVI 2024, Genoa, Italy. 3rd June 2024
https://alandix.com/academic/papers/synergy2024-epistemic/
As machine learning integrates deeper into human-computer interactions, the concept of epistemic interaction emerges, aiming to refine these interactions to enhance system adaptability. This approach encourages minor, intentional adjustments in user behaviour to enrich the data available for system learning. This paper introduces epistemic interaction within the context of human-system communication, illustrating how deliberate interaction design can improve system understanding and adaptation. Through concrete examples, we demonstrate the potential of epistemic interaction to significantly advance human-computer interaction by leveraging intuitive human communication strategies to inform system design and functionality, offering a novel pathway for enriching user-system engagements.
Observability Concepts EVERY Developer Should Know -- DeveloperWeek Europe.pdfPaige Cruz
Monitoring and observability aren’t traditionally found in software curriculums and many of us cobble this knowledge together from whatever vendor or ecosystem we were first introduced to and whatever is a part of your current company’s observability stack.
While the dev and ops silo continues to crumble….many organizations still relegate monitoring & observability as the purview of ops, infra and SRE teams. This is a mistake - achieving a highly observable system requires collaboration up and down the stack.
I, a former op, would like to extend an invitation to all application developers to join the observability party will share these foundational concepts to build on:
Why You Should Replace Windows 11 with Nitrux Linux 3.5.0 for enhanced perfor...SOFTTECHHUB
The choice of an operating system plays a pivotal role in shaping our computing experience. For decades, Microsoft's Windows has dominated the market, offering a familiar and widely adopted platform for personal and professional use. However, as technological advancements continue to push the boundaries of innovation, alternative operating systems have emerged, challenging the status quo and offering users a fresh perspective on computing.
One such alternative that has garnered significant attention and acclaim is Nitrux Linux 3.5.0, a sleek, powerful, and user-friendly Linux distribution that promises to redefine the way we interact with our devices. With its focus on performance, security, and customization, Nitrux Linux presents a compelling case for those seeking to break free from the constraints of proprietary software and embrace the freedom and flexibility of open-source computing.
Removing Uninteresting Bytes in Software FuzzingAftab Hussain
Imagine a world where software fuzzing, the process of mutating bytes in test seeds to uncover hidden and erroneous program behaviors, becomes faster and more effective. A lot depends on the initial seeds, which can significantly dictate the trajectory of a fuzzing campaign, particularly in terms of how long it takes to uncover interesting behaviour in your code. We introduce DIAR, a technique designed to speedup fuzzing campaigns by pinpointing and eliminating those uninteresting bytes in the seeds. Picture this: instead of wasting valuable resources on meaningless mutations in large, bloated seeds, DIAR removes the unnecessary bytes, streamlining the entire process.
In this work, we equipped AFL, a popular fuzzer, with DIAR and examined two critical Linux libraries -- Libxml's xmllint, a tool for parsing xml documents, and Binutil's readelf, an essential debugging and security analysis command-line tool used to display detailed information about ELF (Executable and Linkable Format). Our preliminary results show that AFL+DIAR does not only discover new paths more quickly but also achieves higher coverage overall. This work thus showcases how starting with lean and optimized seeds can lead to faster, more comprehensive fuzzing campaigns -- and DIAR helps you find such seeds.
- These are slides of the talk given at IEEE International Conference on Software Testing Verification and Validation Workshop, ICSTW 2022.
GraphSummit Singapore | The Art of the Possible with Graph - Q2 2024Neo4j
Neha Bajwa, Vice President of Product Marketing, Neo4j
Join us as we explore breakthrough innovations enabled by interconnected data and AI. Discover firsthand how organizations use relationships in data to uncover contextual insights and solve our most pressing challenges – from optimizing supply chains, detecting fraud, and improving customer experiences to accelerating drug discoveries.
Communications Mining Series - Zero to Hero - Session 1DianaGray10
This session provides introduction to UiPath Communication Mining, importance and platform overview. You will acquire a good understand of the phases in Communication Mining as we go over the platform with you. Topics covered:
• Communication Mining Overview
• Why is it important?
• How can it help today’s business and the benefits
• Phases in Communication Mining
• Demo on Platform overview
• Q/A
Maruthi Prithivirajan, Head of ASEAN & IN Solution Architecture, Neo4j
Get an inside look at the latest Neo4j innovations that enable relationship-driven intelligence at scale. Learn more about the newest cloud integrations and product enhancements that make Neo4j an essential choice for developers building apps with interconnected data and generative AI.
Securing your Kubernetes cluster_ a step-by-step guide to success !KatiaHIMEUR1
Today, after several years of existence, an extremely active community and an ultra-dynamic ecosystem, Kubernetes has established itself as the de facto standard in container orchestration. Thanks to a wide range of managed services, it has never been so easy to set up a ready-to-use Kubernetes cluster.
However, this ease of use means that the subject of security in Kubernetes is often left for later, or even neglected. This exposes companies to significant risks.
In this talk, I'll show you step-by-step how to secure your Kubernetes cluster for greater peace of mind and reliability.
Securing your Kubernetes cluster_ a step-by-step guide to success !
NANO - TECHNOLOGY,MATERIALS & APPLICATIONS.pptx
1. NANO: TECHNOLOGY,
MATERIALS & APPLICATIONS
Introductory Lecture from Shah & Schulman Nano Technology Centre
Dharmasinh Desai University, Nadiad
Prof. Samirsinh P Parmar
under the Guidance of Prof. A.D.Shukla
Mail: samirddu@gmail.com
Asst. Professor, Department of Civil Engineering,
Faculty of Technology,
Dharmasinh Desai University, Nadiad-387001
Gujarat, INDIA
2. T
opics Covered
• Introduction
• Definition
• History
• Timeline
• Tools & techniques
• ▫ Carbon nanotubes
• ▫ Nanorods
• ▫ Nanobots
• Approaches used
• ▫ Top-down
• ▫ Bottom-up
• Materials used
• Application
• ▫ Drugs
• ▫ Fabrics
• ▫ Mobiles
• ▫ Electronics
• ▫ Computers
• ▫ Other uses
• Nanotechnology in INDIA
• Possibilities for future
• Pitfalls of nanotechnology.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
2
3. Defination
• Nanotechnology is the study
of manipulating matter on an
atomic scale.
• Nanotechnology refers to the
constructing and engineering of
the functional systems at very micro
level or we can say at atomic level.
• A Nanometer is one billionth
of a meter, roughly the width of
three or four atoms. The average
human hair is about 25,000
nanometers wide.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
3
4. Nanomaterials:
Materials consisting of particles of the size of nanometer
Volume = Surface Area * Thickness
❖ For a given volume:
Surface area Thickness
➢More atoms at surface than in the interior
➢Extraordinary activity
SCOPE: DEFINITION
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
4
5. Nanomaterials: Features
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
5
➢Synergistic combinations of materials of different kinds & characteristics
is possible through nanotechnology
Coatings, Films
10 nm
Homogeneous
Surface modification
Size Reduction
1 m
1 cm
+
Compatibility
Huge interfaces
Solid Liquid
solution
Inorganic
nanoparticles
in a liquid
media
6. Synthesis of Nanomaterials: Ex-situ
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
6
TiO2 TiO2
-
-
-
-
-
-
TiO2
TiO2
-
-
-
-
-
-
10 nm
Polymerization
Monomer
Monomer
Polymer
Surfactant
-
-Radical
Polymerization 100 µm
Grinding
Latex Fe2O3-Particles
Fe2O3-Particles
Latex
bead
Pre-treatment
Copolymer
layer
Encapsulated particle
Amphiphilic
molecule
➢ Ex-situ synthesis of nanomaterials involves number of steps
Polymer encapsulated nanomaterials used for targeted delivery of drugs- good example
of ex-situ synthesis
7. Synthesis of Nanomaterials : In-situ
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
7
Metal salt + Monomer
Adopting in-situ approach of synthesizing nanomaterials reduces
number of steps involved and hence simple process !
Nanocomposite
1. Hydrolysis
2. Polymerization
8. 0 - D
1 - D
2 - D
Dimension
Thermal conductivity is more prominent in 1-D & 2-D nanomaterials
Thermal conductivity of C nanotubes (2-D nanomaterial) = 3000 Wm-1K-1; Copper (bulk) = 400 Wm-1K-1
Structure of Nanomaterials: Size and Shape
3 - D
Bulk
x , y , z
Nanocomposite
thick film
Rods
Wires
Tubes
Nanofilms
Nanocoatings
d=100 nm
d 100 nm
Example
Nanoparticles
Application
Bottle-neck
Waveguides
Components
for PC, Mobile
phones
x , y
x
Nil
Direction of
confinement
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
8
9. Unique Properties of Nanomaterials
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
9
Nano-size
Bulk
Properties
Thermal • S / V
• Heat
transport
Small
Electrons
Large
Phonons
Unique properties at the nanoscale have led to the use of nanomaterials in
fields where conventional materials have limitations
Magnetic
Optical
• Super-
paramagnetism
Absent Prominent
• Absorption
• Emission
• Reflection
Bulk effects
Material
dependent
Surface Plasmon
effects
Size dependent
10. The play of light on a butterfly’s wings has inspired designing of
novel photonic materials for solar cells, photovoltaics,
camouflaging, optical fibers and military applications
Invisibility cloak
Color play
Tailor-making of
refractive index
and dielectric
constant
Nanomaterials : Camouflaging
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
10
11. Nanomaterials: Photochemical Conversion
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
11
Advantages
➢Utilization of unabsorbed part of solar spectrum
➢Reduced heat dissipation
Quantum Dots
100 nm
50 nm
Reactivity
10 nm
Size (nm)
Nanotubes & nanowires
Mesoporous
12. Nanomaterials: Self-Cleaning
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
12
Hydrophobic Photocatalytic
Designing of materials with novel effects like hydrophobic,
hydrophilic, photocatalytic, etc. has made
applications like self cleaning, coatings, etc.
possible new
Coating Dirt run-
off
Light
Coating
Roll-off effect
14. NANOMATERIALS - materials of which a section is between 1 and 100
nanometers long. (a billionth of a meter !)
Materials with structure at the nanoscale often have unique optical,
electronic, thermal (heat), or mechanical properties.
Examples of biological materials that are nanomaterials are:
▪ The overlapping scales on the wing of the Blue Morpho
Butterfly contain nanoscale structures that reflect light to create
iridescent colors.
▪ Chalk
▪ Viruses
▪ Wax crystals covering a lotus leaf
▪ Spider and spider-mite silk
▪ “Spatulae" on the bottom of a Gecko lizard’s feet
▪ Milk and blood
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
14
15. HOW SMALL IS NANO ?
https://www.youtube.com/watch?v=5AAR7bNSMs go to 55 sec
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
15
17. µm = a millionth of a meter nm = a billionth of a meter
.000001 meter .000000001 meter
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
17
18. 2/23/2021 6
A comparison of a
nanotube to the size of a
human hair !!
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
18
19. SIZE OF THE MARKET FOR NANOMATERIALS
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
19
The global nanomaterials
market size was valued at
8.5 billion in US dollars in
2019.
Aerospace applications are
expected to drive the
market.
Rapid developments in
healthcare technology,
growth in the medical
diagnostics industry, and
various advantages of
medicinal imaging
applications are anticipated.
https://www.youtube.com/watch?reload=9&v=dQhhcgn8YZo
21. DIFFERENT TYPES OF NANOMATERIALS
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
21
NANOMATERIALS CAN BE DIVIDED INTO 4 TYPES:
1) CARBON-BASED
2) METAL-BASED
3) DENDRIMERS
4) COMPOSITES
23. NANOMATERIAL CLASSIFICATION
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
23
Another way to classify
Nanomaterials is based on their
dimensions.
This diagram shows the different
types, depending if they are 0, 1,
2, or 3 dimensional.
CARBON
NANOTUBES (CNT)
25. 1) CARBON BASED MATERIALS
These nanomaterials are composed
mostly of carbon atoms, most
commonly taking the form of a
hollow spheres, ellipsoids, or
tubes.
Spherical and ellipsoidal
carbon nanomaterials are
referred to as fullerenes,
while cylindrical ones are
called nanotubes.
These particles have many potential
applications, including improved films
and coatings, stronger and lighter
materials, and applications in
electronics.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
25
26. GRAPHENE – HEXAGON-SHAPED PLANE OF CARBON ATOMS IN SHEET FORM
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
26
27. 11
NANOTUBES ARE FLAT AREAS OF GRAPHENE
THAT IS ROLLED UP INTO A TUBE
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
27
28. CARBON-BASED
FULLERENES (ALSO CALLED
BUCKYBALLS)
Fullerenes are nanomaterials that are made
of round hollow cages and
have high electrical conductivity and strength.
They are named after Buckminster
Fuller who designed the Geodesic
dome.
The illustration shows some of the well-
known fullerenes consisting of C60
(A) and C70 atoms (B) of carbon.
The number of Carbon atoms can range from
20 to 90.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
28
29. 2) METAL BASED NANOMATERIALS
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
29
These nanomaterials include quantum
dots, nanogold, nanosilver and metal
oxides, such as titanium dioxide.
A quantum dot is a closely packed
semiconductor crystal comprised of
hundreds or thousands of atoms, and
whose size is on the order of a few
nanometers to a few hundred
nanometers.
Changing the size of quantum dots
changes their optical properties.
30. • Nanoparticles exhibit unique optical properties.
• A change in optical absorption with reduced sizes cause them to glow
when exposed to UV light.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
30
32. 3) DENDRIMERS
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
32
These nanomaterials are nanosized
polymers built from branched units.
The surface of a dendrimer has numerous
chain ends, which can be tailored to
perform specific chemical functions.
This property could also be useful for
catalysts, to help with chemical reactions.
Also, because three- dimensional
dendrimers contain interior cavities into
which other molecules could be placed,
they may be useful for drug delivery.
33. 4) COMPOSITES
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
33
Composites combine nanoparticles
with other nanoparticles or with
larger
, bulk-type materials.
Clays and Polymers can be used to
make them.
Nanoparticles are already being
added to products ranging from
auto parts to packaging materials,
to enhance the following
properties:
▪ Mechanical
▪ Thermal
▪ Barrier
▪ Flame-retardance
37. THEY CAN ALSO BE DESCRIBED BY
THEIR DIFFERENT SHAPES
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
37
38. SCHEMATIC ILLUSTRATION OF DIFFERENT ARCHITECTURES
OF ENGINEERED NANOMATERIALS.
Micelles are a group of molecules in a solution, such as those formed by detergents.
ALiposome is a minute spherical sac of molecules enclosing a water droplet, especially formed
artificially to carry drugs or other substances into the tissues.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
38
39. NANOWIRES
Background
Nanowires are just like normal
electrical wires other than the fact that
they are extremely small. Like
conventional wires, nanowires can be
made from a variety of conducting and
semiconducting materials like copper,
silver, gold, iron, silicon, zinc
oxide and germanium.
Nanowires can also be made from
carbon nanotubes.
Nanowire Size
Nanowires are less than 100
nanometers in diameter and can be as
small as 3 nanometers. T
ypically
nanowires are more than 1000 times
longer than their diameter
.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
39
40. Sensor test chips
containing thousands
of nanowires, able to
detect proteins and
other biomarkers left
behind by cancer
cells, could enable
the detection and
diagnosis of cancer in
the early stages from
a few drops of a
patient's blood. Researchers at the Emory/Georgia T
ech Center
of Cancer Nanotechnology Excellence
synthesize, by vapor-solid process, aligned
Zinc Oxide nanowire arrays as shown in the
scanning electron microscopy (SEM) image.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
40
41. NANORODS
Nanorods are one form of nanoscale objects with
dimensions ranging from 1–100 nm.
A combination of ligands act as shape control agents
and bond to different facets of the nanorod with different
strengths.
This allows different faces of the nanorod to grow at
different rates, producing an elongated object.
USES:
▪ In display technologies, because the reflectivity of
the rods can be changed by changing their
orientation with an applied electric field.
▪ In micro-electro-mechanical systems (MEMS).
▪ In cancer therapeutics.
27
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
41
42. Carbon Nanotube
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
42
• Carbon nanotubes are allotropes of carbon
with a cylindrical nanostructure.
• They have length-to-diameter ratio of upto
132,000,000:1.
• Nanotubes are members of the fullerene structural family. Their name is
derived from their long, hollow structure with the walls formed by one-atom-
thick sheets of carbon, called graphene.
• Properties
▫ Highest strength to weight ratio, helps
in creating light weight spacecrafts.
▫ Easily penetrate membranes such as
cell walls. Helps in cancer treatment.
▫ Electrical resistance changes significantly when other molecules attach
themselves to the carbon atoms. Helps in developing sensors that can
detect chemical vapours.
43. Carbon Nanotube
• Application ▫ Easton-Bell Sports, Inc. using
CNT in making bicycle component.
▫ Zyvex Technologies using CNT for
manufacturing of light weight boats.
▫ Replacing transistors from the silicon
chips as they are small and emits less
heat.
▫ In electric cables and wires
▫ In solar cells
▫ In fabrics
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
43
44. Nanorods(quantum dots)
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
44
• Nanorods are one morphology of
objects.
nanoscale
• Dimensions range from 1–100 nm.
• They may be synthesized from metals or semiconducting
materials.
• A combination of ligands act as shape control agents and
bond to different facets of the nanorod with different
strengths. This allows different faces of the nanorod to grow
at different rates, producing an elongated object.
USES:
▫ In display technologies, because the reflectivity of the
rods can be changed by changing their orientation with
an applied electric field.
▫ In microelectromechanical systems (MEMS).
▫ In cancer therapeutics.
45. Nanobots
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
45
• Close to the scale of 10-9.
• Largely in R&d phase .
• Nanobots of 1.5 nanometers across, capable
of counting specific molecules in a chemical sample.
• Since nanorobots would be microscopic in size, it would probably be necessary for very
large numbers of them to work together to perform microscopic and macroscopic tasks.
• Capable of replication using environmental resources .
• Application:
▫ Detection of toxic components in environment.
▫ In drug delivery.
▫ Biomedical instrumention.
46. Approaches in nanotechnology
1. Bottom up:
In the bottom up approach different
materials
constructed
components
and devices are
from molecular
of their own. They
chemically assemble themselves by
recognizing the molecules of their
own breed.
• Examples of molecular self
assembly are Watson crick base
pairing , nano-lithoghraphy .
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
46
47. 2. Top down:
In top down approach nano objects and materials
are created by larger entities without bouncing
its atomic reactions usually top down approach is
practiced less as compared to the bottom up
approach.
• Solid-state techniques can also be used
• MEMS became practical once they could be fabricated
using modified semiconductor device fabrication
technologies, normally used to make electronics.
to create devices known as
nanoelectromechanical systems or
NEMS, which are related to
microelctromechanical systems or
MEMS.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
47
48. Materials used
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
48
• Zinc oxide:
▫ Dirt repellent, hydrophobic , cosmetics & stain resistant.
• Silver ion:
▫ Healing property
• Aluminum silicate:
▫ Scratch resistance
• Gold ion:
▫ Chip fabrication, drug delivery.
56. 35
• Materials
• Waterproof and stain-
resistant clothes
• Health Care
• Chemical and biological
sensors, drugs and
delivery devices
POTENTIAL IMPACTS OF NANOTECHNOLOGY
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
56
Thin layers of gold
are used in tiny
medical devices
Carbon nanotubes can
be used for Hydrogen
fuel storage
Possible entry point for
nanomedical device
• Technology
– Better data storage
and computation
• Environment
– Clean energy, clean air
58. Nanomaterials in Consumer Products
The Future is Now
2/23/2021 37
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
58
59. NANOMATERIALS IN CONSUMER PRODUCTS:
THE PERSONAL CARE INDUSTRY IS LEADING
THE WAY
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
59
63. SUNSCREENS
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
63
Zinc oxide and Titanium dioxide have been used
in sunscreens because of their powerful UV blocking
properties but they leave a white coating on the
skin, which most people find unpleasant.
Many sunscreens and moisturizers available
now use these nanoparticles, including
products from;
BootAvon
The Body Shop L'Oreal
Nivea
Unilever
65. MODERN NANOTECHNOLOGY –
ANTIMICROBIAL FABRICS
• Nanohorizons, a company in Pennsylvania,
has started producing a silver nanoparticle
• material as both a dye and
• use in polyester and nylon.
• The silver nanoparticles are toxic to
microbes, and so colonies will never form,
and clothes using this material will not have
odors.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
65
66. USES FOR CARS
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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67. Nanotechnology in Fabrics
• The properties of familiar materials are
being changed by manufacturers who are
adding nano-sized components to
conventional materials to improve
performance.
▫ For example, some clothing
manufacturers are making water and
stain repellent clothing using nano-
sized whiskers in the fabric that cause
water to bead up on the surface.
▫ In manufacturing bullet proof jackets.
▫ Making spill & dirt resistant,
antimicrobial, antibacterial fabrics.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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68. Some clothing manufacturers are making
water and stain repellent clothing using
nano-sized whiskers in the fabric that
cause water to bead up on the surface.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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69. TITANIUM DIOXIDEPARTICLES IN OUR FOODS
Candies, sweets and chewing gum have been
found to contain the highest levels of titanium
dioxide.
Powdered doughnuts, candies and gums with
hard shells, products with white icing and even
bread, mayonnaise, yogurt and other dairy
products may also contain titanium dioxide.
According to research published in
Environmental Science and Technology, up
to 36 percent of the titanium dioxide found
in nearly 90 food products was in the
nanoparticle sizes.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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73. Candies, sweets and chewing gum have
been found to contain the highest levels
of titanium dioxide.
Powdered doughnuts, candies and gums
with hard shells, products with white
icing and even bread, mayonnaise,
yogurt and other dairy products may also
contain titanium dioxide.
According to research published in
Environmental Science and
Technology, up to 36 percent of the
titanium dioxide found in nearly 90
food products was in the nanoparticle
sizes.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
73
76. GECKO NANOSCALE
FOOT PADS
Animals that cling to walls and walk
on ceilings owe this ability to micro-
and nanoscale hairs on their feet.
The highest adhesion forces are
encountered in lizards called
geckos.
On the sole of a gecko’s toes
there are some one billion tiny
adhesive hairs, about 200
nanometers in both width and
length that have spatula-
shaped ends on them for strong
adhesion to flat surfaces.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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77. GECKO NANO-SCALE FOOT-HAIRS FOR WALKING ANYWHERE
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
77
CC BY-SA 3.0, https://en.wikipedia.org/w/index.php?curid=25482399
79. SMART NANOMATERIALS
They are materials which can respond to
Stimuli (forces) from the surrounding
environment.
Stimuli agents are further classified as:
• Light
• T
emperature
• Electricity
• Magnetic
• fields Stress
• Pressure
• pH
• They can be used for controlled release
of drugs, treatment of various diseases,
biosensors, etc.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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80. Nanotechnology in Mobile
• Morph, a nanotechnology concept device
developed by Nokia Research Center (NRC)
and the University of Cambridge (UK).
• The Morph will be super hydrophobic making
it extremely dirt repellent.
• It will be able to charge itself from available light sources
using
photovoltaic nanowire grass covering it's surface.
• Nanoscale electronics also allow stretching. Nokia envisage that
a nanoscale mesh of fibers will allow our mobile devices to be
bent, stretched and folded into any number of conceivable shapes.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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81. Nano Technology in
Energy Sector
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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82. Nanotechnology products in energy
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
82
Nanotechnology products in energy by
application Given the predominance of
photovoltaic products, as expected,
the largest share of products (46%) is
categorized as solar (SO), as seen in
the figure below. Energy storage (ST)
accounts for the second
83. Nanotechnology in Electronics
• Electrodes made from nanowires
enable flat panel displays to be flexible
as well as thinner than current flat
panel displays.
▫ Nanolithography is used for
fabrication of chips.
glass or thin films of flexible plastic.
▫ E-paper, displays on sunglasses
and
map on car windshields.
▫ The transistors are made of
nanowires, that are assembled on
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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84. Nanotechnology in computers
• The silicon transistors in your computer may be replaced by
transistors based on carbon nanotubes.
• A carbon nanotube is a molecule in form of a hollow cylinder
with a diameter of around a nanometer which consists of
pure carbon.
• Nanorods is a upcoming technology in the displays techniques
due to less consumption of electricity and less heat emission.
• Size of the microprocessors are reduced to greater extend.
• Researchers at North Carolina State University says that growing
arrays of magnetic nanoparticles, called nanodots.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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85. • Hewett Packard is developing a memory device that uses nanowires coated with
titanium dioxide.
• One group of these nanowires is deposited parallel to another group.
• When a perpendicular nanowire is laid over a group of parallel
wires, at each intersection a device called a memristor is formed.
• A memristor can be used as a single-component memory cell in an integrated circuit.
• By reducing the diameter of the nanowires, researchers believe memristor memory
chips can achieve higher memory density than flash memory chips.
• Magnetic nanowires made of an alloy of iron and nickel are being used to create
dense memory devices.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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86. MEDICAL USES OF NANO TECHNOLOGY
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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90. Medical Applications
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
90
•Cancer treatment
•Bone treatment
•Drug delivery
•Appetite control
•Drug development
•Medical tools
•Diagnostic tests
•Imaging
91. HEALTH CARE
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
91
NERVE TISSUE TALKING TO COMPUTERS
• Neuro-electronic networks interface nerve cells with semiconductors
• Possible applications in brain research, neuro-computation, prosthetics, and
biosensors
Snail neuron grown on a chip that records the neuron’s
electrical activity
92. Gold tethered to the
67
protein shell of a virus
Health Care: Preventing Viruses from Infecting Us
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
92
• Applying nano-coatings over proteins on viruses
• Could stop viruses from binding to cells
• Never get another cold or flu?
Influenza virus: Note
proteins on outside that
bind to cells
93. HEALTH CARE: MAKING REPAIRS TO THE BODY
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
93
• Nanorobots are imaginary
, but nano-sized delivery systems could…
• Break apart kidney stones, clear plaque from blood vessels, and
ferry drugs to tumor cells
94. Nanotechnology in Drugs(Cancer)
• Provide new options for drug delivery and drug therapies.
• Enable drugs to be delivered to precisely the right location
in the body and release drug doses on
a predetermined schedule for optimal treatment.
• Attach the drug to a nanosized carrier.
• They become localized at the disease site, i.e cancer tumour.
• Then they release medicine that kills the tumour.
• Current treatment is through radiotherapy or
chemotherapy.
• Nanobots can clear the blockage in arteries.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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95. COVID-19 DISEASE
MANAGEMENT
Uses include:
▪ Nano-based disinfectants
▪ Personal protective equipment
▪ Diagnostic systems
▪ Treatments and vaccine development
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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96. VARIOUS TYPES OF NANO MEDICINES
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
96
97. Cancer is a leading cause of
death worldwide.
Currently available therapies
are inadequate and spur
demand for improved
technologies.
Rapid growth in nanotechnology
towards the development of
nanomedicine products holds
great promise to improve
therapeutic strategies against
cancer
.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
97
98. Theranostic nanoparticles are designed for combining
diagnostic and therapeutic capabilities into one single
biocompatible and biodegradable nanoparticle.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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99. SOME NANOTECHNOLOGY-BASED DRUGS THAT
ARE COMMERCIALLY AVAILABLE OR IN HUMAN
CLINICAL TRIALS
Abraxane, approved by the U.S. Food and Drug
Administration (FDA) is used to treat breast cancer
,
non-small-cell lung cancer
, and pancreatic cancer
.
Doxil was originally approved by the FDA for the use on
HIV-related Kaposi's sarcoma. It is now being used to
also treat ovarian cancer and multiple myeloma.
Onivyde, liposome encapsulated irinotecan to treat
metastatic pancreatic cancer
, was approved by FDA in
October 2015.
Rapamune is a nanocrystal-based drug that was
approved by the FDA in 2000 to prevent organ
rejection after transplantation.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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100. 2/23/2021 73
Researchers from North Carolina State
University have developed a wearable,
wireless sensor that can monitor a
person's skin hydration for use in
applications that need to detect
dehydration before it poses a health
problem.
It is made of made of
conductive silver nanowire
inlaid in a silicone matrix.
The device is lightweight, flexible and
stretchable and has already been
incorporated into prototype devices that
can be worn on the wrist or as a chest
patch.
a chest patch. Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
100
102. Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
102
103. Injected into a healthy mouse,
nanoparticles of cadmium
selenide glow when exposed to
ultra- violet light.
Such quantum dots can seep
into cancerous tumors to help
surgeons find and remove sick
cells without disturbing healthy
ones.
2/23/2021 76
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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106. Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
106
107. They also can be improved diagnostic
tools for cancer and other diseases as
well as low-cost solar energy cells
2/23/2021
81
NANO BORANES FOR CANCER
AND OTHER DISEASE
TREATMENT
Polyhedral Boranes, or clusters of boron
atoms bound to hydrogen atoms, are
transforming the biomedical industry.
These man-made materials have become
the basis for the creation of cancer
therapies, enhanced drug delivery and
new contrast agents needed for radio-
imaging and diagnosis.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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108. NANODENTRISTY
Nanotechnology used in the dental
field is called nanodentistry.
Nanoparticles are used for:
▪ Prevention of oral diseases
▪ Cavity preventive drugs
▪ Prostheses for teeth
implantation
▪ Maintaining oral health
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
108
109. SAFETY ASPECTS OF
NANOMATERIALS
Nanopollutants could be a risk to the
general population, but especially to
workers in nanotechnology research
and those in manufacturing of buildings.
They are very small nanoparticles
which can let them enter the skin and
be absorbed by the lungs, which can
cause severe health problems.
If the nanopollutants enter the
bloodstream, they may be able to cross
the blood-brain barrier
, therefore
opening up the possibility that these
nanoparticles could severely damage the
brain.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
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110. Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
110
111. Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
111
112. Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
112
113. Consumer Products Inventory
An inventory of nanotechnology-based consumer products
introduced on the market.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
113
After more than twenty years of basic and applied research, nanotechnologies
are gaining in commercial use.
But it has been difficult to find out how many “nano” consumer products are on the
market and which merchandise could be called “nano.
”
This inventory gives the public the best available look at the 5,003 !
manufacturer-identified nanotechnology-based consumer products
introduced to the market.
This "living" inventory is a resource for consumers, citizens, policymakers, and others
who are interested in learning about how nanotechnology is entering the
marketplace.
https://www.nanodb.dk/
85
THE END
114. Nanotechnology in India
• IIT Mumbai is the premier organization in the field of nanotechnology.
• Research in the field of health, environment, medicines are still on.
• Starting in 2001 the Government of India launched the Nano Science and Technology Initiative
(NSTI).
• Then in 2007 the Nanoscience and Technology Mission 2007 was initiated with an allocation of
Rupees 1000 crores for a period of five years.
• The main objectives of the Nano Mission are:
- basic research promotion,
- infrastructure development for carrying out front-ranking research,
- development of nano technologies and their applications,
- human resource development and
- international collaborations.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
114
115. IIT mumbai project
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
115
https://www.ee.iitb.ac.in/~nanotechnology/
https://www.iitg.ac.in/proj/inup-i2i/iit-bombay.html
116. Possibilities for the future
• Nanotechnology may make it possible to manufacture lighter, stronger, and
programmable materials that
▫ require less energy to produce than conventional material
▫ and that promise greater fuel efficiency in land transportation, ships, aircraft,
and space vehicles.
• The future of nanotechnology could very well include the use of
nanorobotics.
• These nanorobots have the potential to take on human tasks as well as tasks that
humans could never complete. The rebuilding of the depleted ozone layer could
potentially be able to be performed.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
116
117. • There would be an entire nano surgical field to help cure everything
from natural aging to diabetes to bone spurs.
• There would be almost nothing that couldn’t be repaired (eventually) with the
introduction of nano surgery.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
117
118. Pitfalls of nanotechnology
▫ Nano-particles can get into the body through the skin, lungs and digestive system,
thus creating free radicals that can cause cell damage.
▫ Once nano-particles are in the bloodstream, they will be able to cross the blood-brain
barrier.
▫ The most dangerous Nano-application use for military purposes is the Nano-bomb
that contain engineered self multiplying deadly viruses that can continue to wipe out a
community, country or even a civilization.
▫ Nanobots because of their replicating behavior can be big threat for GRAY GOO.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
118
119. References
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
119
1. http://science.howstuffworks.com/nanotechnology3.htm
2. http://en.wikipedia.org/wiki/Carbon_nanotube
3. http://en.wikipedia.org/wiki/Nanotechnology
4. http://crnano.org/whatis.htm
5. http://www.wifinotes.com/nanotechnology/introduction-to-
nanotechnology.html
6. www.iitb.ac.in/~crnts/
7. www.nafenindia.com/Final_Report_Nano_OK.pd
8. www.sciencedaily.com/releases/2010/05/100531082857.ht m
9. http://www.nanostart.de/index.php/en/nanotechnology/nan
otechnology-information/610-schneller-sparsamer-robuster-
nanotechnologie-in-computer-handy-a-co
10. https://arxiv.org/ftp/arxiv/papers/0801/0801.3280.pdf
Special thanks to HOWIE BAUM – originally compiled by
120. To see our Research Projects , do visit :-
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
120
121. • Parmar, S. P., Patel, B. S., Shukla, A., & Dixit, M. (2022). Surfactant Modified Bentonite
Characterization: Effects and Comparative Analysis.
• Pretreatment of biopolymer composite to manufacture sustainable green geotextile: A Review, S. P.
Parmar, Shukla A.D.(2021) Conference Green Technologies for Sustainable Development-
GTSD2021
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
121
Prof. S.P.Parmar - Publications
https://www.slideshare.net/samirsinhparmar/pretreatment-of-biopolymer-composite-ss-606pptx
122. Disclaimer:
• The presentation published on internet for academic purpose
only.
• Data (in terms of numbers) given may vary, depending on the
experimentation and material variability.
• Figures, websites, references, photos etc. were compiled from
various sources, we respect copyright law, but it is violated in
favor of mankind (students).
• In case of any complaint contact me on given mail ID.
• Jurisdiction is limited to , District court – Godhra.
Prof. S.P.Parmar, & Shukla A.K.- Centre of Nano
Technology, DDU Nadiad.
122