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Nanotechnology is not a new term. It is, in fact, a common word that you get to hear these days. The only catch, however, is that most people do not realize the amazing impact it brings. By essence, nanotechnology is a combination of engineering, science, and technology, all of which are performed at a nanoscale. The latter, in particular, is between 1 to 100 nanometers. Interestingly, scientists have recently found out that atoms and molecules tend to behave contrarily at the nanoscale.
What really makes this topic interesting is the continuous expansion of this field. Experts have managed to obtain success at creating materials at the nanoscale, allowing them to take advantage of all possible properties at the enhanced level. This could be anything from higher strength to a lighter weight to a significant increase in electrical conductivity, just to name a few. Here are some ways nanotechnology has improved the daily lives of humanity.
This is without a doubt one of the most popular findings related to nanotechnology. It appears that it has the ability to create not only faster and smaller computers but even powerful ones. More importantly, these seemingly improved computers tend to have longer-lasting batteries and consume far less power.
Circuits that are specifically made from carbon nanotubes proved to be vital when it comes to maintaining a substantial growth of computer power. Ultimately, this allows the very existence of Moore’s Law to continue.
Every single day, medical experts are looking for ways to improve the deliverance of medication in the human body. Fortunately, nanoparticles have become a total game-changer. Once they are incorporated into pharmaceutical products, the latter can drastically improve in terms of absorption. As a result, they become much easier to deliver within the body and make.
While research on this area is still in progress, many medical experts found out that a way to do this is through combining medical devices. On the other hand, nanoparticles can also be utilized in delivering chemotherapy drugs that are somewhat specific cells, with cancer cells being the most popular one.
This one here, though, is still continued research. Nonetheless, there are studies suggesting that nanotechnology has the potential to help in changing gender or body perfectly. Again, this is a longshot, but the potential is pretty much there.
Basically, nanotechnology can enhance the process of changing cellular structure (i.e. DNA), including the movement of cells into the right positions. Once these are achieved, sex change can be made possible. Just think about the possibilities this technology can offer. If this is made right, say no more to sex discrimination and the alike.
Thanks to nanotechnology, it is possible to improve a great number of chemical sensors. They can be effectively programmed in a way that they can detect a particular chemical at even incredibly low levels. An epitome here is a single molecule out of billions. Now, this capability presents a more interesting range of benefits.
For instance, it can greatly help in security and surveillance systems installed in locations such as airports, industrial sites, and labs, among many others. Medically speaking, nanosensors can also be used to precisely classify particular cells or substances in the body.
Yes, that is right – carbon nanotubes have become a useful addition when it comes to commercial uses. For starters, it can make sports equipment a lot stronger and weight extremely lighter.
For example, a tennis racket can be made largely of carbon nanotubes, allowing it to bend a little lesser when impact occurs. At the same time, it can increase its force and accuracy of delivery. And if you apply nanoparticles in tennis balls, they will gain the ability to keep bouncing twice as long as any conventional tennis balls.
Many products today promise incredible resistance to flame, stain, and water, among many other components. Sure, they are somewhat effective, but they are nothing compared to the potential of fibers made of either nanoparticles or nanofibers. That is because they can exponentially increase the resistance of the aforementioned. What is even amazing here is that this can be achieved even without a noticeable increase in stiffness, thickness, or weight of the fabric.