What does nanotechnology mean? Well it involves understanding and working with materials on a level of size where they are billionths of a meter in size. At this size certain materials have very important qualities and can easily penetrate into other materials at a molecular or atomic level.

First let’s look at silver this metal has been used by many civilizations for centuries as a method of treating wounds and purifying water. Many cultures in our past including the Greeks and Romans have historical evidence of using silver to help treat wounds and infections. There is even a reference to King Cyrus of Persia in V BC who only drank water stored in silver containers. Many books including ancient Hindu religious books refer to dirty water being cleaned by placing heated silver into it for a short period of time. Burns were also treated with a silver solution and sometimes food was treated with silver to kill bacteria. Pioneers in America were known to put a silver coin, a dollar back then, into milk to preserve it longer before it went bad. Doctors began experimenting with medical uses silver and found various other areas other than wounds where it helped. Ulcers and fistulas that resisted other treatments were often cured quickly by using an application of silver water even ones that had been there for a few years. It was realized that silver not only had an ability to kill bacteria but also on a molecular level penetrated cells and aided regeneration of tissue. In 1920 the US government Food and Drug Administration endorsed the use of silver water in medicine and purification.

(more…)

By Ritchie Smythe

Computers of the future will use atoms instead of chips for memory. That’s a simplified way of saying that within the next few years, we can expect miniaturization to go into the atomic level to bring to the consumer and the office more power computers that require significantly less power and possess lesser footprints. Using nanotechnology advances, the computers that we know today will become more powerful and more energy efficient and can fit more snugly inside a handbag.

What we have today

Computers have evolved from using vacuum tubes in their earliest incarnation to transistors in the 60s to integrated circuits of the 70s and to Very Large Scale Integrated circuits (VLSI) of the 80s. The latest VLSI has reached its maximum miniaturization potentials using Lithography to engineer the laptops, netbooks and mobile hand-held phones and gadgets we use today. It’s a landmark technology of the 20th century. But Lithography can only go so far. The microprocessor chips that power the computing gadgets in our hands house millions of transistors in lithographed wafer thin circuit in multiple layers inside those chips. To get them more powerful with ever decreasing sizes and lower power requirements, we need a new technology. We’re headed for something far tinier.

The New Technology for the 21st Century

Tiny means in the vicinity of a billionth of a meter or around 1/500th the width of a hair strand. That’s mathematically called nano. And the engineering technologies behind working at such a microscopic atomic-sized level of parts fall within the ambit of nanotechnology. The benefits behind nanotechnology are so immensely far-reaching; they redefine the technology landscape to open new possibilities that are mostly considered impossible or at least expensive in today’s world.

Computers are among the first to get there. A nanocomputer chip designed at the molecular level is expected to be 3-4 magnitude orders smaller than the smallest chip in the market today and their computing power doubled or tripled. It offers the next generation of computer chip design and manufacture with greater possibilities after exhausting the most that current Lithography VLSI can offer.

Nanomemories

In the near future, expect to boot up a PC in no time. If you’ve ever started a PC or laptop, you know it can be excruciatingly slow. With a new nanotechnology derivative called nanomagnetics that can provide faster memory chips called MRAMs, waiting for the PC to boot up can be banished forever. The new MRAMs are non-volatile memory storage chips that remember virtually all that it captured before power is lost. That makes it useful as a computer DRAM. It is also expected to be employed in other mission critical areas like databases and sensors that require instance access to large quantities of data with minute powering requirements. Smart cards that have embedded chips will get a boost with larger data storage capacities that can contain a person’s entire life history.

When to Expect It

Nanotechnology is real. Realizing this promise is only a matter of time as engineers are perfecting the manufacturing processes for commercial-grade nanotech products to reach the market at the end of the next decade. Grade schoolers of today just might get their mobile phones on a ring by then. In the meantime, expect mobile phones and netbooks to get just incremental improvements in features, nothing radical until the first nanotech atom computers become available. GP

ITC Sales are a leading supplier of Dell and HP Laptops such as the Dell Precision and the Dell Vostro.

UK Area 51 is a website dedicated to unexplained events and emerging sciences concerning a wide variety of topics. Please visit our main site for many more intriguing articles and to view the original article please click Why Nanotechnology Important.

With the advent of new technologies, things are becoming more efficient as before, use of digital technologies and now micro technology gaining ground on the entire communication. But things never end here and more research is going on in order to bring innovations in the existing technologies and to make our lives better each day. One of such technologies is Nanotechnology.

Nanotechnology means any thing smaller then micro technology. Suppose when we say nanosecond means billion of a second. Basically, it works on molecular level and will make most products lighter, stronger, less expenses are and more precise. The application of this technology is not limited to a particular field but covers an entire field of medicines, electronics energy production etc.

I personally believe that scientists are bringing innovations but at what cost? For example when a computer is replaced with lap top. People face difficulty in pressing the keys because of its compact nature and narrow space between the keys. It is seen quite often that your finger jumps on an key mistakenly, so as the as visibility and clarity of the screen because of the short space.

I have seen a gentleman using the key board of a laptop but for clarity of vision he made connection of his lap top with the monitor of a computer. Sound clumsy! Not only this,the new technology can also bring new hazards for people and environment It was also commented that these thing molecular particles are made up of inert material like gold, etc so they may be attributable with toxicity.

Another important thing is the increase of E-waste that includes cell phones, T.V, Computer and Electronic games. A rough estimate indicates that with this alarming increase of E-waste it is possible that it will surpass by three times more than solid municipal waste

Any way this is what new technologies is all about, The bottom line message is that one has to adopt changes as quickly as one can because of the dynamism in the field as it helps increase value and increase quality of life and so as economic growth.