Structural Change in C60 Fluorescent Carbon Nano-Pipes (Based on Nano-Micro-Electronic phd) Educational-Research PhD
Researcher and author: PhD student ( Afshin Rashid)
Tip: Buckyballs can return to their original shape when compressed and rotate at an astonishing rate. Fullerenes are the constituent particles of buckwheat in conductive carbon nanotubes.
Fleurins are nanometer-sized molecules that, in their simplest form, form 60 carbon atoms of a graphite layer with a three-dimensional, curved structure. 60 Unlike diamonds and graphite, whose molecules are continuous, fullerenes have closed molecules: they are like C60 and so on. (60 fullerenes), also known as bacilli and bacilli tubes, include nanotubes, nanofibers, and fluorine has a graphite-like structure, but instead of fully hexagonal sections, carbon atoms are also located at the vertices of the 5 (or 7) sides.
Carbon nanotubes are one of the most important and widely used carbon structures. They have unique properties and characteristics. Carbon nanotubes, in addition to being very strong, also have good flexibility and flexibility. One of their applications is composite. The most important property of nanotubes is their electrical conductivity, which varies depending on the order in which the atoms are arranged. They are cylindrical molecules with open or closed ends. The structure of the nanotubes is like a rolled graphite plate. To better understand the structure of the nanotube, consider a graphite layer. Atoms arranged in a row with (m, n) representing the coordinates of a point on the plane. So that the coordinates n are related to the column of atoms and the coordinates m are related to the row of atoms. As we know, to get a pipe from one plate, it is enough to put one point of the plate on another point. It is a nano-tube like a graphite plate that is shaped like a tube. Depending on how the two ends of the graphite plate are connected to each other, we will have different types of nanotubes.
Author: PhD Student ( Afshin Rashid)
PhD student in Nano-Microelectronics at Islamic Azad University, Science and Research Branch, Tehran