Skip to main content

What will iron atoms make for graphene material?



Graphene is able to use ultra hard contact lenses
(Picture 1)

Kimmo Huosionmaa

When we are talking about graphene, we mean the 2 dimension carbon atom network, what allows to make very strong surfaces for another material. The graphene network is very strong, and it conducts electricity. But if the carbon network will connect the iron atoms, that action will allow magnetizing the surface. The magnetized iron graphene has the quality, that it can be pulled up and down with the magnets.


That material can be used as the walls, what must be self-cleaning. In this scenario, the iron atoms, what are connected to graphene network will be magnetized, and then the magnets will push and pull the graphene network, and then the dirt will be separated from that surface.  The push- and pull effect will be done by changing the polarity of the magnets, and then they can shake the network, and that allows to drop the dirt off it.


The graphene itself is the super material, but if we will connect there an intelligent component, we can make it even more efficient, what it has been. In this scenario, the bulletproof jackets and vests are equipped with the intelligent component and between the graphene layers is the layers of the iron graphene those intelligent protective clothes can pull the graphene layers to the bullet before it hits the target.


The intelligent system works with miniature radars and other sensors, and those sensors notice the shape of knives or bullets, what is closing the person, and activates the active system just before the projectile hits the target. Of course, those intelligent systems can activate the electric protection system, what gives the same caliber electric shocks than electric batons, or even nano-sized microwave transmitters, what will deny other people to touch that protective gear.


his technology based on the thin electric insulators, what can be protected the electric components from high voltage electricity. Also, the magnetrons can be produced in very small size, and in this scenario is used the atom-sized electric wires and other super miniaturized technology. The computing system might base the smart mobile telephones, what can be used as central processing units. The mobile telephones operating system might be changed, and then that equipment can be used as the computer, but the ideal thing is that normal mobile telephone can be equipped with the applet, what allows it to communicate with microchips, what are hired in the clothes via WLAN or Bluetooth. The imagination is the limit in nanotechnology.

Sources:

Picture  1

Labels:

Comments

Post a Comment

Popular posts from this blog

MIT's tractor beam can make the new types of SASER systems possible

   "This chip-based "tractor-beam," which uses an intensely focused beam of light to capture and manipulate biological particles without damaging the cells, could help biologists study the mechanisms of diseases."(Interesting Engineering, MIT’s Star Wars-inspired ‘tractor beam’ uses light to capture, manipulate cells) MIT's tractor beam can make the new types of SASER systems possible. The tractor beam just hovers the nanoparticle in air or medium, and then the laser or some other electromagnetic system transports oscillation into those particles. The ability to make cells and other particles hover in the system makes it possible to create particles whose energy level or resonance frequencies are accurately calculated things.  That thing makes it possible to create things that transmit wave movement accurately and cleanly. This is one version of the use of a tractor beam. Modern tractor beams are like acoustic tweezers where sound waves lock the object in its cr
Post a Comment
Read more

The new observations tell that the thunderstorms form gamma-rays. That could make gamma-ray lasers possible.

  "An illustration of NASA’s research plane ER-2 flying over thunderstorms. Credit: University of Bergen / Mount Visual (CC BY 4.0), edited" (ScitechDaily, Surprising Discovery: NASA’s Retrofitted U2 Spy Plane Reveals Tropical Lightning Storms Are Radioactive) The new observations tell that the thunderstorms form gamma-rays. That could make gamma-ray lasers possible. The process has been observed by the NASA (Lockheed) ER-2 research plane, which is a modified U-2 spy plane. The gamma-ray formation in thunderstorms. Where lightning and electric fields release electrons that impact the air molecules and water droplets is an interesting thing. That thing opens the route to solving many mysteries.  "The general physics behind how thunderstorms create high-energy flashes of gamma radiation is not a mystery. As thunderstorms develop, swirling drafts drive water droplets, hail, and ice into a mixture that creates an electric charge much like rubbing a balloon on your shirt. Pos
Post a Comment
Read more

Chinese innovations and space lasers are interesting combinations.

Above: "Tiangong is China's operational space station located in low Earth orbit. (Image credit: Alejomiranda via Getty Images)" (Scpace.com, China's space station, Tiangong: A complete guide) Chinese are close to making nuclear-powered spacecraft.  Almost every day, we can read about Chinese technical advances. So are, the Chinese more innovative than Western people? Or is there some kind of difference in culture and morale between Western and Chinese societies? The Chinese superiority in hypersonic technology is one of the things that tells something about the Chinese way of making things.  In China, the mission means. And the only thing that means is mission. That means that things like budgets and safety orders are far different from Western standards. If some project serves the Chinese communist party and PLA (People's Liberation Army) that guarantees unlimited resources for those projects. Chinese authorities must not care about the public opinion.  If we th
Post a Comment
Read more