1. Brief description of nanotechnology
2. Historical timeline and predecessor assessment
3. Analysis of impacts
4. Ethical consideration
5. Nanomaterials
6. Tools and techniques in production
7. Applications of nanotechnology
8. Implications of nanotechnology
9. Advantages and disadvantages of nanotechnology.
10. Rules and regulations
Nanotechnology is the branch of science and technology of specifically deploying the configuration of material at the small molecular phase. The word nanotechnology holds many dissimilar specialties and fields, comprising chemistry, engineering, medicine, electronics, and amongst others, however each of these fields are worried with taking present technologies downcast to a very minor scale, restrained to scale in nanometers.
Predecessor Assessment
Nanotechnology exclusively deals with technology and science of manipulating the structure of matter at molecular level. It involves several fields including chemistry, electronics, medicine, and engineering all concerned with scaling down small scale measurements which are nanomaterial and nanoparticles measured in nanometers. Nanometer is a billionth of a meter which is the size of six carbon atoms in a row.
Nanotechnology
Including nanoscale engineering, science, and technology, generally nanotechnology comprises measuring, imaging, manipulating and modeling substance at this distance scale. A nanometer approximately "billionth of a meter" is around the measure of size of total 6 carbon matter molecules consecutively. The advancement of nanotechnology holds out awesome guarantee of upgrades in the personal satisfaction, including new medications for infection and more noteworthy proficiency in PC information stockpiling and handling. For instance, minor self-governing robots, or nanobots, may one day be sent into human bodies to repair the body cells and completely cure the occurring diseases, maybe notwithstanding amplifying the human life range by numerous years. The straightforward devices developed by nanotechnology so far have not yet drew closer the intricacy of the imagined nanobots and nanomachines.
Predecessor assessment
Nanotechnology exclusively deals with technology and science of manipulating the structure of matter at molecular level. It involves several fields including chemistry, electronics, medicine, and engineering all concerned with scaling down small scale measurements which are nanomaterial and nanoparticles measured in nanometers. Nanometer is a billionth of a meter which is the size of six carbon atoms in a row.
In the 4th century the Lycurgus Cup in Rome was introduced which was made of dichroic glass. It was a combination of gold and silver which appeared as opaque green when lit strike from outside. This glittering and glowing ceramic glazes were used by the Islam people. Later on new technology of a vibrant stained glass window was introduced which had several colors to nanoparticles of metal oxides and gold chloride. At the end of the 18th century an ultrahigh carbon steel which had strength and its ability in holding a keen edge was introduced (Hutchings, 1960).
Project update 3
The next project update will exclusively deal with analysis of impacts such as social, cultural, economic, and environmental impacts.
References
Klabunde, K. J. (2001). Introduction to nanotechnology. Nanoscale Materials in Chemistry, 1- 13.
Hutchings Jr, E. (1960). Engineering and Science, Volume 23: 5, February 1960. Engineering and Science, 23(5).
Groover, M. P. (2011). Introduction to manufacturing processes. Wiley Global Education.
Percenta Nanotechnology, 2016. Nanotechnology Timeline. Retrieved on November 9, 2016 from https://percenta-nanoproducts.com/timeline/
Reibold, M., Paufler, P., Levin, A. A., Kochmann, W., Pätzke, N., & Meyer, D. C. (2006) Materials: Carbon nanotubes in an ancient Damascus sabre. Nature, 444(7117), 286-286.
Tyagi, M., & Tyagi, D. (2014). Polymer Nanocomposites and their Applications in Electronics Industry. Int. J. Electron. Electr. Eng, 7(6), 603-608.
Poole Jr, C. P., & Owens, F. J. (2003). Introduction to nanotechnology. John Wiley & Sons.
Youtie, J., Carley, S., Shapira, P., Corley, E. A., & Scheufele, D. A. (2011). Perceptions and actions: relationships of views on risk with citation actions of nanotechnology scientists. Research Evaluation, 20(5), 377-388.
1
NANO MACHINES AND NANOTECHNOLOGY IN PRODUCTION
1
Student’s Name
TECH 491
-
Senior Project
Date
Project ideas
1.
Brief description of nanotechnology
2.
Historical timeline
and predecessor assessment
3.
Analysis of impacts
4.
Ethical
consideration
5.
Nanomaterials
6.
Tools and techniques in production
7.
Applications of nanotechnology
8.
Implications of nanotechnology
9.
Advantages and disadvantages of nanotechnology.
10.
Rules and regulations
Project update 2
Introduction
Nanotechnology has
consistently become a significant portion of today’s culture through
meeting to the quantity of molecules and atoms premeditated by experts. The rise of
nanotechnology and its commercialization has taken after a comparative way to the rise of the
biotechno
logy business as well as "recombinant innovation".
It comprises of the prospective
utilization of nanotechnology in field of production and in emerging artificial intelligence. With
enough knowledge of nanotechnology it is possible to analyze and solve tec
hnical problems in
various workplaces.
Nanotechnology is the branch of science and technology of specifically deploying the
configuration of material at the small molecular phase. The word nanotechnology holds many
dissimilar specialties and fields, comp
rising chemistry, engineering, medicine, electronics, and
amongst others, however each of these fields are worried with taking present technologies
downcast to a very minor scale, restrained to scale in nanometers.
Predecessor Assessment
Nanotechnology ex
clusively deals with technology and science of manipulating the
structure of matter at molecular level. It involves several fields including chemistry, electronics,
medicine, and engineering all concerned with scaling down small scale measurements which ar
e
nanomaterial and nanoparticles measured in nanometers. Nanometer is a billionth of a meter
which is the size of six carbon atoms in a row.
Nanotechnology
Including nanoscale engineering, science, and technology, generally
nanotechnology
comprises measur
ing, imaging, manipulating and modeling substance at this distance scale.
A
nanometer approximately "billionth of a meter" is around the measure of size of total 6 carbon
matter molecules consecutively. The advancement of nanotechnology holds out awesome
guarantee of upgrades in the personal satisfaction, including new medications for infection and
more noteworthy proficiency in PC information stockpiling and handling. For instance, minor
self
-
governing robots, or nanobots, may one day be sent into human b
odies to repair the body
cells and completely cure the occurring diseases, maybe notwithstanding amplifying the human
life range by numerous years. The straightforward devices developed by nanotechnology so far
have not yet drew closer the intricacy of the
imagined nanobots and nanomachines.
Predecessor assessment
NANO MACHINES AND NANOTECHNOLOGY IN PRODUCTION
1
Student’s Name
TECH 491- Senior Project
Date
Project ideas
1. Brief description of nanotechnology
2. Historical timeline and predecessor assessment
3. Analysis of impacts
4. Ethical consideration
5. Nanomaterials
6. Tools and techniques in production
7. Applications of nanotechnology
8. Implications of nanotechnology
9. Advantages and disadvantages of nanotechnology.
10. Rules and regulations
Project update 2
Introduction
Nanotechnology has consistently become a significant portion of today’s culture through
meeting to the quantity of molecules and atoms premeditated by experts. The rise of
nanotechnology and its commercialization has taken after a comparative way to the rise of the
biotechnology business as well as "recombinant innovation". It comprises of the prospective
utilization of nanotechnology in field of production and in emerging artificial intelligence. With
enough knowledge of nanotechnology it is possible to analyze and solve technical problems in
various workplaces.
Nanotechnology is the branch of science and technology of specifically deploying the
configuration of material at the small molecular phase. The word nanotechnology holds many
dissimilar specialties and fields, comprising chemistry, engineering, medicine, electronics, and
amongst others, however each of these fields are worried with taking present technologies
downcast to a very minor scale, restrained to scale in nanometers.
Predecessor Assessment
Nanotechnology exclusively deals with technology and science of manipulating the
structure of matter at molecular level. It involves several fields including chemistry, electronics,
medicine, and engineering all concerned with scaling down small scale measurements which are
nanomaterial and nanoparticles measured in nanometers. Nanometer is a billionth of a meter
which is the size of six carbon atoms in a row.
Nanotechnology
Including nanoscale engineering, science, and technology, generally nanotechnology
comprises measuring, imaging, manipulating and modeling substance at this distance scale. A
nanometer approximately "billionth of a meter" is around the measure of size of total 6 carbon
matter molecules consecutively. The advancement of nanotechnology holds out awesome
guarantee of upgrades in the personal satisfaction, including new medications for infection and
more noteworthy proficiency in PC information stockpiling and handling. For instance, minor
self-governing robots, or nanobots, may one day be sent into human bodies to repair the body
cells and completely cure the occurring diseases, maybe notwithstanding amplifying the human
life range by numerous years. The straightforward devices developed by nanotechnology so far
have not yet drew closer the intricacy of the imagined nanobots and nanomachines.
Predecessor assessment
korokiabe
progressupdate2.docx
0
