Scientists claim that if a new generation of computers and smartphones can use the world's thinnest materials, they will run faster. Today's computer chips are made of silicon, and studies have shown that electrons move much faster in graphene than in silicon. As long as there is such a soft, flexible material, the commercial benefits will be groundbreaking. The phone and computer can be rolled up like a pencil. This ultra-thin material, called graphene, helps the electrons move quickly. High-speed computers: Today's computer chips are made of silicon, but may be made of graphene in the future. Graphene has only one layer of carbon atoms, which was discovered in 2004 by a professor at the University of Manchester. They say that graphene has the potential to drive the next generation of electronic products. However, recent research has also shown that electrons, especially secondary electron particles, move faster in thin materials. Graphene paper is a graphite-based composite. It is much lighter, stronger, stronger and more flexible than steel. Graphene is a single atomic layer in a network of hexagonal carbon atoms. It not only revolutionizes semiconductors, sensors, and display technologies, but also provides a huge breakthrough in basic quantum physics research. Graphene is portrayed as an atomic-scale wire mesh made up of carbon atoms and its binders. Scientists believe that one day, graphene can be made into a transparent conductive material, as a biomedical sensor, and even a very light and sturdy aircraft. On the left is Professor Andrew Heim, and on the right is Professor Konstantin Novo Shaw ( because of their graphene experiments and won the Nobel Prize in Physics. ) Box Cutter 5Pcs Blades,Utility Knife Snap Off Blades,Box Cutter Retractable,Retractable Blade Knife Yucheng Weisite Measuring Tools Co., Ltd , https://www.wsttool.com
Professor Konstantin Novoselov said in the Independent that "electrons have a lot of fluidity in graphene and they move very fast." .jpg)
Similar to another important nanomaterial, carbon nanotubes, graphene is very strong and is about 200 times stronger than structural steel. This is a great news for physics. Its potential application is self-evident. Last year, Professor Novo Shawoff and Professor Andrei Heim won the Nobel Prize in Physics for their breakthrough experiments on graphene in two-dimensional materials. At present, universities around the world have begun to try to make devices such as touch screen computers with graphene.
Professor Novo Shawoff and Professor Andre Heim have been working together for more than a decade, and they sacrificed every Friday night to do on-the-spot experiments for physics experiments and exploration. On a Friday night, they used a piece of scotch tape to peel off a layer of carbon on a piece of graphite until only one atom was left, resulting in a two-dimensional graphite film (graphene).
Professor Novo Shawoff said: "Although the exciting physical phenomena we found in this experiment can be effective immediately in practical electronic devices, a deeper understanding of their electronic properties is the development of graphene electronics. The epoch-making. University of Manchester. 'Professor Heim added: "This progress is due to the qualitative leap in the quality of the University of Manchester. †
Graphene: The world's thinnest substance will drive the next generation of computer development
Abstract Scientists claim that if a new generation of computers and smartphones can use the world's thinnest materials, they will run faster. Today's computer chips are made of silicon, and studies have shown that electrons move much faster in graphene than in silicon. As long as there is such softness...