Taking a Closer Look at Nanotechnology
Over time, weâve seen technology be developed into smaller and smaller sizes. One of the most notable examples of this is the computer. Computers used to be so large that they would take up the whole room, but nowadays, thanks to the developments in technology manufacturing, they take up a fraction of the space that they did not so long ago. Whatâs even more amazing is that this development has simultaneously increased performance while making technology take up a considerably smaller amount of space.
Taking a Closer Look at Nanotechnology
Over time, weâve seen technology be developed into smaller and smaller sizes. One of the most notable examples of this is the computer. Computers used to be so large that they would take up the whole room, but nowadays, thanks to the developments in technology manufacturing, they take up a fraction of the space that they did not so long ago. Whatâs even more amazing is that this development has simultaneously increased performance while making technology take up a considerably smaller amount of space.
Taking a Closer Look at Nanotechnology
Over time, weâve seen technology be developed into smaller and smaller sizes. One of the most notable examples of this is the computer. Computers used to be so large that they would take up the whole room, but nowadays, thanks to the developments in technology manufacturing, they take up a fraction of the space that they did not so long ago. Whatâs even more amazing is that this development has simultaneously increased performance while making technology take up a considerably smaller amount of space.
What is Nanotechnology?
The actual meaning of nanotechnology can be seen by analyzing the specific parts of the word. The prefix nano means âone billionth,â which is derived from the Latin nanus, or âdwarf.â Technology isnât a unit of measure, but nano in this context means that the technology will be measured in terms of nanometers. For reference, a strand of DNA is about two nanometers in diameter. Nanotechnology is typically used to describe technology that is somewhere between one and one-hundred nanometers.
Nanotechnology, due to its size, operates on a different set of physics than the majority of the world does. As a result, major changes can happen without it being realized.
Why This Technology Isnât More Popular
Despite the many potential uses of nanotechnology, there are major challenges that the âtechnologyâ faces. According to Dr. George Tulevski, a researcher at IBMâs TJ Watson Research Laboratory, nanotechnology development has slowed considerably since the major advancements made in the 1980s.
Tulevski believes that progress can be resumed through the use of carbon nanotubes. According to the researcher, these nanoscopic tubes made of carbon can magnify a computerâs performance tenfold. However, a computer chip will need billions of these, which makes for a complicated setup.
The Solution
Chemistry provides a solution to this dilemma by providing a way to arrange circuits in a better way in the final product. Nanotechnology can be used to provide a myriad of technological and practical benefits, including medicine delivery, fuel production, more efficient electronics, and cleaner natural resources. If leveraged properly, nanotechnology can change the world.
How can nanotechnology help some of the systems that you utilize every day? Let us know in the comments.