Today there are lots of different kinds and types of Smartphone’s, Tablets, Touch screen monitors and flat screen monitors, that almost a 100% of the population using worldwide.
A nanotechnology has different kinds of names when it comes in to medical terms, in automobiles terms, in agricultural terms, in electronics communication terms and in computer science/information technology terms. According to Nano.gov (National Nanotechnology Initiative) the Nanotechnology were sciences, engineering such as in constructing, structuring, and manufacturing and in information technology that conducted the nanoscale, which about 1 to 100 of nanometers. It is also the study and application of tiny things that are used in all fields. Robotic element in nanotechnology that makes the products:
In U.S NNI (National Nanotechnology Initiative),
The manpower site utilizes a database of nanotechnology products and applications, providing an extensive overview of the materials and applications used across various industries. This ongoing work-in-progress has seen significant advancements throughout the year.
In the field of medicine, nanotechnology plays a pivotal role by encapsulating drugs in capsules, effectively preventing the spread and deterioration of certain diseases.
Additionally, nanotechnology finds application in the field of electronics, specifically in cable wires, telephone wires, and other electrical components. These advancements greatly facilitate work processes in electricity and related industries.
It may also touches in some subjects such as physics, chemistry, and in biotechnology on how it really works in different fields and what will be the outcomes on using nanotech in daily works.
Nanotechnology is a rapidly advancing field that deals with the manipulation and utilization of materials and structures at the nanoscale level. It involves the study and application of nanomaterials, which are substances with unique properties and behaviors due to their extremely small size.
The field of has immense potential in various industries, including medicine, electronics, energy, and materials science. In medicine, has opened up new possibilities for targeted drug delivery, diagnostic imaging, and regenerative medicine. It enables scientists to design nanoparticles that can selectively target cancer cells or deliver therapeutic agents to specific areas of the body.