Drexler, E. (2013). Radical Abundance: How a Revolution in Nanotechnology Will Change Civilization. United States: Public Affairs.
The book makes an introduction of the description of nanotechnology as the manipulation of molecules and atoms in the field of engineering. It is, therefore, a good source of definitions of nanotechnology and a historical perspective of its development. The brilliant works of Drexler inform the reader on the new age of nanotechnology. From this book, I will be sourcing for information about the implications of this new technology on the economy, the environment, and medicine. I will, therefore, be learning more on what is expected of the new developments. From this book, the major learning will also be on how nanotechnology
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(2007). Strategic implications of nanotechnology. Business Strategy Series, 8(6), 401-408.
I will be writing about the impacts that nanotechnology may have on the world. This journal article is a presentation of research findings on nanotechnology as a paradigm shift that will have a significant impact more than the internet. The report will inform on what business have planned regarding business models to accommodate the new paradigm
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This book by Hornyak and partners brings into perspective an integrated introduction to the nanoscience and its applications. The book further presents illustrations in full color regarding nanotechnology. From these illustrations, I will be developing a detailed understanding of the fundamentals of nanotechnology. I will also be acquiring knowledge on the different aspects of nanotechnology including chemistry, physics, and biology. The authors also discuss the impacts of nanotechnology on the society, which is also an important part of my paper. I will be gathering information on industrial concerns associated with nanotechnology in manufacturing and safety. This will broaden my discussion to a better-informed approach in explaining implications of nanotechnology in the modern
In “Value Sensitive Design and Nanotechnology” by Ronald Sandler, Sandler explains the process engineers must consider while they design a technology. Sandler introduces technology and its relationship with society. He points out that some technologies are welcomed by society and may solve world issues while others are resisted by society because they may cause problems. Sandler then observes the dependency humans have on technology. He talks about how important technology is to the survival human race, but also how many current social interactions now happen through technology.
Promise and Peril by Ray Kurzweil is an essay about the future of technology and what benefits and risks it will present to the world. It focuses on the fields of genetic engineering, nanotechnology, and robotics, or GNR. Kurzweil wrote this essay as a response to an article Bill Joy wrote called Why The Future Doesn't Need Us. Joy also focuses his article on the topic of GNR technologies, but writes from a pessimistic point of view, as opposed to the optimistic stance taken by Kurzweil. Joy foresees future advances and paints a portrait of a world where technology is ultimately harmful to humans and could possibly challenge the survival of our race. He introduces the concept of relinquishment, where humankind as a whole chooses to dismiss
The world is continuously changing; development of nature is becoming more complex and diverse. Ways of obtaining products are becoming more difficult to achieve. Luckily, nanotechnology is here to make that process a little bit easier. In the near future, new developments in agriculture promise to “help decrease production costs by reducing energy consumption, attenuate environmental pollution and increase the production efficiencies in developed countries. Moreover, nanotechnology may be a useful tool to address different social problems of developing countries such as the need for clean water and the treatment of epidemic diseases (qtd. in Fleischer and Grunwald, 2008).” quoted by Sabry and Nesreen (119). In short, the developments it has on the future allows for a cleaner and less costly food production for the consumers by creating new inventions that can help solve some of the environmental problems . It takes away unhealthy environmental facts by going on the route based on green energy efficiency with the use of nanotechnology. Almost every issues is solved through the help of technology, by doing so it expands our knowledge for the possibilities of a better
The use of nano-materials and extreme precision micro-engineering has the potential for great improvement in the world of electronics and information technology by providing smaller, faster, and more powerful computers and this has been at the forefront of the nanotechnology commercialization . Great examples of how nanotechnology is currently being used in these fields are products such as processors, data storage, and memory components made with nano-materials, TVs, monitors and even smartphone screens that use organic light-emitting diodes (OLED), and waterproof electronics such as smartphones due to the application of nano-coatings
Jones, Richard A.L. "Nanotechnology Will Not Contribute to a "Singularity"" Nanotechnology. Ed. Jacqueline Langwith. Detroit: Greenhaven, 2010. Opposing Viewpoints. Rpt. of "Rupturing the Nanotech Rapture."
Kurzweil, Ray. "Ray Kurzweil: Bring on the Nanobots, and We Will Live Long and Prosper." The Guardian. Guardian News and Media, 21 Nov. 2007. Web. 26 Apr. 2016.
To answer this, one does not have to look far as the Cavendish Laboratory is rather open with current projects. For example, Nanophotonics, which is the study of the conduct of light on the nanometer scale and its interactions, is an ongoing study at the Cavendish Laboratory (NanoPhotonics, n.d., para. 1). Specifically, the NanoPhotonics Group (NP) is looking into nano-plasmonics, polymer photonic crystals, semiconductor microcavities, et cetera (NanoPhotonics, n.d., para. 2). At this current time, it is rather difficult, as assembling “nano-chunks” of matter into a structure creates nano-materials that have emergent properties, which are not found in their constituents (NanoPhotonics, n.d., para. 3). Their goal is “moving from expensive fabrication of devices to elegant nano-assembly in which materials ‘build themselves’” (NanoPhotonics, n.d., para. 3). Overall this has a large reward if research is successful and actually leads towards a
Ricardo Morales on the synthesis and characterization of bimetallic magnetic nanoparticles for further application in cancer treatment, I gained the skill sets needed to come up with research ideas and implement them as well as how to resolve issues that arise within any research. My experience as a teaching assistant in organic and general chemistry at the University of La Verne Chemistry Department taught me the importance of lab safety and the joys of connecting what is learned in lecture to lab and helping students make that connection in a lab setting while creating a safe environment. My experience as an Academic Success Center tutor in chemistry course from general chemistry to advance organic chemistry taught me the joys of helping students to truly understand material and not memorize it but have that knowledge become a part of them that they can use whether in a research setting or to explain those concepts to their peers. These experiences in undergrad allowed me to determine that academia was the right fit for me; graduate school will give the skills needed to fulfill this
Nanomedicine will change the world because of the technology that will be embedded in them and they would possibly be able to research more about cancer with the nanotechnology in the medicine and be able to find a cure for it. Nanomedicine could be the start or the cure to most and possibly all sicknesses. Nanomedicine will possibly be able to build tissue allowing disabled citizen to grow back their lost body parts or wipe out their diseases.
The technologic progress during the Industrial Revolution enhanced quality of life but also resulted in a human health burden. As in the case of asbestos with its decades of long latency that still remain, there are many legitimate concerns about the unknown human health consequences of nanomaterials. Nanotechnology, now at the leading edge of rapid development with many potential human health benefits, is perceived with apprehension for potential human health risks. Enhanced strength, durability, flexibility, performance, and inimitable physical properties associated with these materials has been exploited in a multitude of industries and treatment modalities including detection of tumors, targeted drug delivery, and prognostic visual monitoring
For this section I will talk about nanosensors that are becoming popular in the medical field and the block chain, which is the digital currency. Although these two technologies have been here for a while, it is only recently that they have their own spotlight in the emerging technologies as they have advanced greatly from what they were before to what is planned for them.
of technology; Nanotechnology. Nanotechnology could give the human race eternal life, or it could cause
Nanotechnology is the development of atoms in a certain object. Nanotechnology has become very popular in the past few years. It is a way to rebuild the systems of life. To make systems move faster than ever before. Nanometer is about 10 times the size of an atom. Each of these has a huge effect on a system. Still there are questions out there that keep people wondering how important nanotechnology is to us. Many wonder how will it affect them and if we should continue this research. I myself wondered about nanotechnology. After researching this topic I have learned new and interesting facts to help me understand the entire concept.
First, Nano Development in Mexico is on the rise – it’s unregulated and risks spinning out of control
One would at first believe that it is pure imagination, when told what nanotechnology is, it is going to completely change the way that we act, think, and as a whole, change the way that our society works and interacts within itself. In other words, dictionary.com has defined nanotechnology as "A technology executed on the scale of less than 100 nanometers, thegoal of which is to control individual atoms and molecules, especially tocreate computer chips and other microscopic devices.", this means, that nanotech operates on a scale 1,0 × 10-9 meters to 1,0 × 10-7 meters. To give a mental representation of this, if a marble were a nanometer, then one meter would be the size of the Earth(http://www.nano.gov/nanotech-101/what/definition). Just having to imagine that number is complicated confusing. Already now, the number seems to be impossible to even imagine, but the mere fact that nanotechnology is a tech that operates and interferes with these molecules on a molecular level is just fascinating.