Pretty much anything you can think of. It has application in so may fields, including medicine, technology, computers, weapons, etc. One of the most promising things about it at least in the near future is carbon nanotubes. Using nanotech, they can create a material out of these nanotubes that is 100 times stronger than steal and 10 times lighter. In terms of applications, creating nanorobots that can be injected into your bloodstream that seek out cancer cells individually and destroy them, or that carry 10 times more oxygen than your regular red blood cells and therefore allow you to hold your breath for 4 hours... etc.
Honestly, you would do better to just search Nanotechnology on answers.com and find out all the applications. What's the point in posting a question on answers.com when all the info is already on answers.com?
1.)Nanomedicine
2.)Nanobiotechnology
3.)Green nanotechnology
4.)Vitality uses of nanotechnology
5.)Mechanical utilizations of nanotechnology
Nanotechnology is currently a wide field of research and applications in fields ranging from biology to semiconductor fabrication. An example in biology is the design and fabrication of extremely small and sensitive chemical sensors. An example in semiconductors is the lithographic creation of IC chips.
Scientific knowledge provides the foundational understanding of materials, processes, and interactions at the atomic and molecular levels, which is essential for developing nanotechnology. Nanotechnology involves manipulating matter at the nanoscale (1 to 100 nanometers), where unique physical and chemical properties emerge. Advances in scientific research drive innovations in nanotechnology, enabling applications across various fields such as medicine, electronics, and materials science. Thus, the interplay between scientific knowledge and nanotechnology fosters new discoveries and technological advancements.
nanotechnology is high demand in India or in usa.
Nanotechnology is a bunch of tiny robots.
As of my last update in October 2023, India ranks among the top countries in nanotechnology research and development, often positioned within the top 10 globally. The country has made significant investments in nanotechnology through various government initiatives and research institutions. While specific rankings may vary by criteria, India is recognized for its growing contributions to nanomaterials, applications, and collaborations in the field.
Applications in nanotechnology
Nanotechnology has several applications in biology, including targeted drug delivery, imaging and diagnostic tools, tissue engineering, and biosensors. These applications leverage the unique properties of nanomaterials to improve the efficacy and specificity of various biological processes and interactions.
In short nanotechnology is manipulation of matter on atomic or molecular level. Nanotechnology has a large list of applications in medicine. It's use ranges from applications of nanomaterials to nanoelectronic biosensors.
Meso C2 materials have potential applications in nanotechnology for creating advanced electronic devices, sensors, and energy storage systems due to their unique properties such as high surface area and conductivity.
No, nanotechnology has not been used to microchip humans. Nanotechnology is being developed for various applications, but currently, there is no technology that can microchip humans without their consent at a scale that would go undetected.
You can give presentation on carbon nano tubes production and its applications OR you can also give presentation on bulletproof jackets enhanced with nanotechnology.
The history of nanotechnology traces the development of the concepts and experimental work falling under the broad category of nanotechnology. Although nanotechnology is a relatively recent development in scientific research, the development of its central concepts happened over a longer period of time. The emergence of nanotechnology in the 1980s was caused by the convergence of experimental advances such as the invention of the scanning tunneling microscope in 1981 and the discovery of fullerenes in 1985, with the elucidation and popularization of a conceptual framework for the goals of nanotechnology beginning with the 1986 publication of the book Engines of Creation. The field was subject to growing public awareness and controversy in the early 2000s, with prominent debates about both its potential implications as well as the feasibility of the applications envisioned by advocates of molecular nanotechnology, and with governments moving to promote and fund research into nanotechnology. The early 2000s also saw the beginnings of commercial applications of nanotechnology, although these were limited to bulk applications of nanomaterials rather than the transformative applications envisioned by the field.
Nanotechnology was discovered to manipulate materials at the atomic and molecular scale, enabling new properties and applications that were not possible with conventional technologies. It has the potential to revolutionize various industries such as medicine, electronics, and energy production.
Many technologies have the potential to greatly influence our future. One example is nanotechnology, the manufacture and use of microscopically small devices. Applications of nanotechnology include communications, medicine, and surveillance.
The basic elements used in nanotechnology include nanoparticles, nanotubes, and nanowires. These elements are manipulated and engineered at the nanoscale to create new materials, devices, and structures with unique properties and applications.
Hydrophilic spheres are nanoparticles that attract water molecules. They have properties that make them useful in drug delivery, imaging, and environmental remediation in nanotechnology. Their ability to interact with water allows them to be easily dispersed in aqueous solutions, making them ideal for various applications in the field.
Nanotechnology in biochemistry involves manipulating and studying biological molecules at the nanometer scale. It allows for precise control and manipulation of biomolecules for various applications, such as drug delivery, imaging, and biomaterial development. Nanotechnology in biochemistry has the potential to revolutionize healthcare and advance our understanding of biological systems at the molecular level.