Nanotechnology involves imaging, measuring, modeling and manipulating matter at the nanoscale of approximately 1 to 100 nanometers. It allows scientists to see and manufacture materials at the atomic scale using techniques like scanning tunneling microscopes. Nanotechnology has applications in electronics such as transistors and displays, energy with batteries and solar cells, materials like carbon nanotubes, and life sciences for targeted drug delivery and tissue regeneration. Advocates argue it will lead to stronger, lighter and cheaper materials while critics warn of potential environmental and health risks from nanomaterials. The future of nanotechnology is predicted to include electronic paper, morphing devices and smart contact lenses that will transform many everyday objects over the next century.
Nanotechnology ("nanotech") is manipulation of matter on an atomic, molecular, and supramolecular scale. The earliest, widespread description of nanotechnology referred to the particular technological goal of precisely manipulating atoms and molecules for fabrication of macroscale products, also now referred to as molecular nanotechnology. A more generalized description of nanotechnology was subsequently established by the National Nanotechnology Initiative, which defines nanotechnology as the manipulation of matter with at least one dimension sized from 1 to 100 nanometers. This definition reflects the fact that quantum mechanical effects are important at this quantum-realm scale, and so the definition shifted from a particular technological goal to a research category inclusive of all types of research and technologies that deal with the special properties of matter which occur below the given size threshold. It is therefore common to see the plural form "nanotechnologies" as well as "nanoscale technologies" to refer to the broad range of research and applications whose common trait is size.
Nanotechnology is combination of words nano and technology which means very small size of technology. As we all see, day-by-day the size of the objects shrink, so that they can be easily transportable, easily handle. so nanotechnology helps a lot in this digital world.
Nanotechnology and Its Applications which are related to the field of engineering and mainly bio-nanotechnology, electronics and green nanotechnology in India.
Nanotechnology ("nanotech") is manipulation of matter on an atomic, molecular, and supramolecular scale. The earliest, widespread description of nanotechnology referred to the particular technological goal of precisely manipulating atoms and molecules for fabrication of macroscale products, also now referred to as molecular nanotechnology. A more generalized description of nanotechnology was subsequently established by the National Nanotechnology Initiative, which defines nanotechnology as the manipulation of matter with at least one dimension sized from 1 to 100 nanometers. This definition reflects the fact that quantum mechanical effects are important at this quantum-realm scale, and so the definition shifted from a particular technological goal to a research category inclusive of all types of research and technologies that deal with the special properties of matter which occur below the given size threshold. It is therefore common to see the plural form "nanotechnologies" as well as "nanoscale technologies" to refer to the broad range of research and applications whose common trait is size.
Nanotechnology is combination of words nano and technology which means very small size of technology. As we all see, day-by-day the size of the objects shrink, so that they can be easily transportable, easily handle. so nanotechnology helps a lot in this digital world.
Nanotechnology and Its Applications which are related to the field of engineering and mainly bio-nanotechnology, electronics and green nanotechnology in India.
this is the ppt on nano technology.
made by harshid panchal and dhrumil patel.
this take lots of time..thanx for dhrumil for time.
i think this is helpful to all.
education
IT CONSISTS OF :
INTRODUCTION
TYPES OF NANOMATERIALS
WHY NANOTECHNOLOGY
APPLICATIONS OF NANOTECHNOLOGY
ADVANTAGES & DISADVANTAGES
FUTURE OF NANOTECHNOLOGY
CONCLUSION
REFERENCE
Evolution of nanotechnology in electronics (seminar report) -codewithgauriGaurav Pandey
Nanotechnology is engineering and manufacturing at the molecular scale, thereby taking more advantage of the unique properties that exist at that scale.
A Nanometre is a unit of length in the metric system, equal to one billionth of a metre(10-9).Can be used across all the other science fields, such as chemistry, biology, physics, materials science, and engineering.
www.blog.codewithgauri.tech
Nanotechnology: Basic introduction to the nanotechnology.Sathya Sujani
This simple presentation will help you to understand the every aspects of nanotechnology including basic definition and it's practical application in a very simple yet precise manner.
History.
Definition.
Techniques of nanotechnology.
Application in nanotechnology.(Nanomedicine,)
(Nanoelectronics,Nanoagriculture,Nanospace and many others)
Advantages of nanotechnology.
Disadvantages of nanotechnology.
Conclusion.
this is the ppt on nano technology.
made by harshid panchal and dhrumil patel.
this take lots of time..thanx for dhrumil for time.
i think this is helpful to all.
education
IT CONSISTS OF :
INTRODUCTION
TYPES OF NANOMATERIALS
WHY NANOTECHNOLOGY
APPLICATIONS OF NANOTECHNOLOGY
ADVANTAGES & DISADVANTAGES
FUTURE OF NANOTECHNOLOGY
CONCLUSION
REFERENCE
Evolution of nanotechnology in electronics (seminar report) -codewithgauriGaurav Pandey
Nanotechnology is engineering and manufacturing at the molecular scale, thereby taking more advantage of the unique properties that exist at that scale.
A Nanometre is a unit of length in the metric system, equal to one billionth of a metre(10-9).Can be used across all the other science fields, such as chemistry, biology, physics, materials science, and engineering.
www.blog.codewithgauri.tech
Nanotechnology: Basic introduction to the nanotechnology.Sathya Sujani
This simple presentation will help you to understand the every aspects of nanotechnology including basic definition and it's practical application in a very simple yet precise manner.
History.
Definition.
Techniques of nanotechnology.
Application in nanotechnology.(Nanomedicine,)
(Nanoelectronics,Nanoagriculture,Nanospace and many others)
Advantages of nanotechnology.
Disadvantages of nanotechnology.
Conclusion.
Applications of Nanotechnology in Food Packaging and Food Safety (Barrier ma...Dr. IRSHAD A
Over the past few decades the evolution of a number of science disciplines and technologies have revolutionized food and processing sector. Most notable among these are biotechnology, information technology etc… and recently nanotechnology which is now constantly growing in the field of food production, processing, packaging, preservation, and development of functional foods. Food packaging is considered as one of the earliest commercial application of nanotechnology in food sector. Around more than 400 Nanopackaging products are available for commercial use. In 2008, nanotechnology demanded over $15 billion in worldwide research and development money (public and private) and employed over 400,000 researchers across the globe (Roco, M. C. et al. 2010). Nanotechnologies are projected to impact at least $3 trillion across the global economy by 2020, and nanotechnology industries worldwide may require at least 6 million workers to support them by the end of the decade (Roco, M. C. et al. 2010). Scientists and industry stakeholders have already identified potential uses of nanotechnology in virtually every segment of the food industry from agriculture (e.g., pesticide, fertilizer or vaccine delivery; animal and plant pathogen detection; and targeted genetic engineering) to food processing (e.g., encapsulation of flavor or odor enhancers; food textural or quality improvement; new gelation or viscosifying agents) to food packaging (e.g., pathogen, gas or abuse sensors; anticounterfeiting devices, UV-protection, and stronger, more impermeable polymer films) to nutrient supplements (e.g., nutraceuticals with higher stability and bioavailability). Undeniably, the most active area of food nanoscience research and development is packaging: the global nano-enabled food and beverage packaging market was 4.13 billion US dollars in 2008 and has been projected to grow to 7.3 billion by 2014, representing an annual growth rate of 11.65% (www.innoresearch.net).This is likely connected to the fact that the public has been shown in some studies to be more willing to embrace nanotechnology in ‘out of food’ applications than those where nanoparticles are directly added to foods.
Applications of nanotechnology in food packaging and food safetyDr. IRSHAD A
Over the past few decades the evolution of a number of science disciplines and technologies have revolutionized food and processing sector. Most notable among these are biotechnology, information technology etc… and recently nanotechnology which is now constantly growing in the field of food production, processing, packaging, preservation, and development of functional foods. Food packaging is considered as one of the earliest commercial application of nanotechnology in food sector. Around more than 400 Nanopackaging products are available for commercial use. In 2008, nanotechnology demanded over $15 billion in worldwide research and development money (public and private) and employed over 400,000 researchers across the globe (Roco, M. C. et al. 2010). Nanotechnologies are projected to impact at least $3 trillion across the global economy by 2020, and nanotechnology industries worldwide may require at least 6 million workers to support them by the end of the decade (Roco, M. C. et al. 2010). Scientists and industry stakeholders have already identified potential uses of nanotechnology in virtually every segment of the food industry from agriculture (e.g., pesticide, fertilizer or vaccine delivery; animal and plant pathogen detection; and targeted genetic engineering) to food processing (e.g., encapsulation of flavor or odor enhancers; food textural or quality improvement; new gelation or viscosifying agents) to food packaging (e.g., pathogen, gas or abuse sensors; anticounterfeiting devices, UV-protection, and stronger, more impermeable polymer films) to nutrient supplements (e.g., nutraceuticals with higher stability and bioavailability). Undeniably, the most active area of food nanoscience research and development is packaging: the global nano-enabled food and beverage packaging market was 4.13 billion US dollars in 2008 and has been projected to grow to 7.3 billion by 2014, representing an annual growth rate of 11.65% (www.innoresearch.net).This is likely connected to the fact that the public has been shown in some studies to be more willing to embrace nanotechnology in ‘out of food’ applications than those where nanoparticles are directly added to foods.
The Next Very BIG (small) Thing
Contents:
Introduction to Nanotechnology
Applications In Today's Life
Advantages & Disadvantages
Future Of Nanotechnoogy
It is a full explanition of the nanotechnology
its usefull for the engineering & technical people's
in the content of the ideology is implemented for the renewable energy source
its a best explanation of nanotechnology
The Art of the Pitch: WordPress Relationships and SalesLaura Byrne
Clients don’t know what they don’t know. What web solutions are right for them? How does WordPress come into the picture? How do you make sure you understand scope and timeline? What do you do if sometime changes?
All these questions and more will be explored as we talk about matching clients’ needs with what your agency offers without pulling teeth or pulling your hair out. Practical tips, and strategies for successful relationship building that leads to closing the deal.
Transcript: Selling digital books in 2024: Insights from industry leaders - T...BookNet Canada
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Link to video recording: https://bnctechforum.ca/sessions/selling-digital-books-in-2024-insights-from-industry-leaders/
Presented by BookNet Canada on May 28, 2024, with support from the Department of Canadian Heritage.
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"Impact of front-end architecture on development cost", Viktor TurskyiFwdays
I have heard many times that architecture is not important for the front-end. Also, many times I have seen how developers implement features on the front-end just following the standard rules for a framework and think that this is enough to successfully launch the project, and then the project fails. How to prevent this and what approach to choose? I have launched dozens of complex projects and during the talk we will analyze which approaches have worked for me and which have not.
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Welcome to UiPath Test Automation using UiPath Test Suite series part 3. In this session, we will cover desktop automation along with UI automation.
Topics covered:
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UI automation Sample
Desktop automation flow
Pradeep Chinnala, Senior Consultant Automation Developer @WonderBotz and UiPath MVP
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
Builder.ai Founder Sachin Dev Duggal's Strategic Approach to Create an Innova...Ramesh Iyer
In today's fast-changing business world, Companies that adapt and embrace new ideas often need help to keep up with the competition. However, fostering a culture of innovation takes much work. It takes vision, leadership and willingness to take risks in the right proportion. Sachin Dev Duggal, co-founder of Builder.ai, has perfected the art of this balance, creating a company culture where creativity and growth are nurtured at each stage.
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Keynote at DIGIT West Expo, Glasgow on 29 May 2024.
Cheryl Hung, ochery.com
Sr Director, Infrastructure Ecosystem, Arm.
The key trends across hardware, cloud and open-source; exploring how these areas are likely to mature and develop over the short and long-term, and then considering how organisations can position themselves to adapt and thrive.
UiPath Test Automation using UiPath Test Suite series, part 4DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 4. In this session, we will cover Test Manager overview along with SAP heatmap.
The UiPath Test Manager overview with SAP heatmap webinar offers a concise yet comprehensive exploration of the role of a Test Manager within SAP environments, coupled with the utilization of heatmaps for effective testing strategies.
Participants will gain insights into the responsibilities, challenges, and best practices associated with test management in SAP projects. Additionally, the webinar delves into the significance of heatmaps as a visual aid for identifying testing priorities, areas of risk, and resource allocation within SAP landscapes. Through this session, attendees can expect to enhance their understanding of test management principles while learning practical approaches to optimize testing processes in SAP environments using heatmap visualization techniques
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1. Insights into SAP testing best practices
2. Heatmap utilization for testing
3. Optimization of testing processes
4. Demo
Topics covered:
Execution from the test manager
Orchestrator execution result
Defect reporting
SAP heatmap example with demo
Speaker:
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
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Let me take this questions and provide you a short journey through existing deployment models and use cases for AI software. On practical examples, we discuss what cloud/on-premise strategy we may need for applying it to our own infrastructure to get it to work from an enterprise perspective. I want to give an overview about infrastructure requirements and technologies, what could be beneficial or limiting your AI use cases in an enterprise environment. An interactive Demo will give you some insides, what approaches I got already working for real.
GDG Cloud Southlake #33: Boule & Rebala: Effective AppSec in SDLC using Deplo...James Anderson
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Speakers:
Bob Boule
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Gopinath Rebala
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2. Agenda
Introduction To Nanotechnology
Nanotechnology In Today's Life
Advantages Of Nanotechnology
Disadvantages Of Nanotechnology
Future Of Nanotechnology
6. How Small Is Nanoscale?
A nanometer is…
–one billionth of a meter
Human DNA Sample: Approx. 2 nm Hair: Approx. 1x105 nm
7.
8. Seeing at nanoscale
Nanoscientists use high-powered microscopes that
use unique methods to allow them to see the surface
features on the atomic scale, effectively opening the
door to modern nanotechnology such as scanning
tunneling microscope and the atomic force
microscope.
9. Manufacturing at the nanoscale
Nanomanufacturing involves scaled-up, reliable, and
cost-effective manufacturing of nanoscale materials,
structures, devices, and systems.
It leads to the production of improved materials and
new products.
10. How it works?
Encompassing nanoscale science, engineering, and
technology, nanotechnology involves imaging,
measuring, modeling, and manipulating matter at
this length scale.
11. Who Cares About Nanotechnology ?
We All Should Care!
–Because it can bring revolution in the current
industrialization and manufacturing processes.
19. Material
With NT, we can create unique materials and products which
are:
– Stronger
– Lighter
– Cheaper
– Durable
– Precise
Advantages
20. Advantages
Industrial
– Computers can become a billion times faster and a million times
smaller
– Automatic Pollution Cleanup
–Manufacturing at almost no cost
22. Disadvantages
– Loss of jobs (in manufacturing, farming, etc)
– Carbon Nanotubes could cause infection of lungs
– Oil & Diamonds could become worthless
– Atomic weapons could be more accessible and destructive
24. Future Of Nanotechnology
Examples of Future Use of NT
Electronic Paper
Nokia Morph
Contact Lens
25. Future Of Nanotechnology
National Science and Technology Council
(USA) claims that:
“Nanotechnology is an enabling technology
that will change the nature of almost every
human-made object in the next century.”
In this presentation we are going to tell you, what actually nanotechnology is, how it is serving us in daily lives, what are its advantages and disadvantages and what the future of NT holds for us.
so what is NT?
by definiton as you can see ”it’s the art of manipulating matter at the nanoscale level”
Now Here a question arises “how small the Nanoscale is?”
1. Its a bit difficult to realize how small the nano-scale is. To make things easier to get, we can say that one nanometre (nm) is one billionth of a metre.
-2. Lets see some examples to make it clear
In the picture on the right, we can see a man staring at his picked hair trying to figuring out the diameter of it, he will essentially come to the conclusion that a human hair is 100,000nm thick, while a DNA molecule is only 2 nms wide.
We All Should care Because it can and most likely will bring revolution in the current industrialization and manufacturing processes.
lets have a look how NT is leading us in different areas of expertise..
e.g: in da field of electronics nanotransistors are becoming more nd more popular bcoz of it’s compactness..
If u are thinking that this is a single transistor then you need to reshape your thinking, bcoz this is a transistor box containing thousonds of transistors in it…
Some other examples of nanoelectronics are Nanodiodes, OLEDs etc.
The aapliances made with the help of nanoelectronics are getting its market share increasing and are becoming popular day by day due to the productivity and quality they have.
Such as plasma Displays nd Quantum computing..
1-This is a nano-engineered battery, light in weight and flexible just like a paper. It can be rolled, twisted, folded or cut into a number of shapes with absolutely no loss of mechanical efficiency. Other energy suppliment examples with some change in their properties are fuel cells and solar cells
1-this rotating picture is actually a model of carbon nanotube, the strongest and stiffest materials discovered till to date. These tubes are the building block of almost all the NT objects.
2- Aerogel. The world’s lightest crystalline solid
3-and nano particles
Apart from the engineering and science discussed so far, NT also has its applications in medical sciences
1- this picture shows the process of Targeted drug delivery.. Which will enable mankind to diagnose nd treat all the major diseases such as cancer, HIV etc.
2-. Artificial Retina and Tissue regeneration are the other examples of NT applications in life sciences..
Although there are so many advantages to count about this incredible technology..
We are going to Highlight some of them……
With NT, we can create unique materials and products which are: Stronger, Lighter, Cheaper, Durable and even Precise all at the same time
1- computers can become a billion times faster and a million times smaller..
2- Automatic cleanup of Pollution..
3- Manufacturing at almost No cost..
Nothing is perfect in this World, so is NT..!
Here are some of its disadvantages..
Loss of jobs (in manufacturing, farming, etc)
Carbon Nanotubes could cause infection of lungs
Oil & Diamonds could become worthless
Atomic weapons could be more accessible and destructive
Now we are plugging into the future of Nanotechnology.
1- In future, you might be reading news on foldable electronic paper..
2- This is the proto type of Nokia Morph concept phone based purely on NT..
3- Contact lens that will let you check your blood sugar level by looking into a mirror. (It is expected to be coming in 5 years or so.
This statement has obvious meaning that Nanotechnology is capable of changing the way almost everything is designed and made: from computers to clothing; from sports equipments to space ships and satellites; from cars to cancer therapies; from bridges to paint; and even objects and devices not yet imagined.
