The body of topological insulator is insulated just like the insulator that people usually know, but there are always conductive edge states on its boundary or surface, which is the most unique property different from ordinary insulator. This kind of conductive edge state is stable, and the direction of motion of conductive electrons with different spins. On the contrary, information can be transmitted through the spin of electrons, rather than through the charge of traditional materials, which does not involve the dissipation process. This discovery makes people full of hope for making new computer chips and other components in the future.

The body of topological insulator is insulated just like the insulator that people usually know, but there are always conductive edge states on its boundary or surface, which is the most unique property different from ordinary insulator. This kind of conductive edge state is stable, and the direction of motion of conductive electrons with different spins. On the contrary, information can be transmitted through the spin of electrons, rather than through the charge of traditional materials, which does not involve the dissipation process. This discovery makes people full of hope for making new computer chips and other components in the future. The body of topological insulator is insulated just like the insulator that people usually know, but there are always conductive edge states on its boundary or surface, which is the most unique property different from ordinary insulator. This kind of conductive edge state is stable, and the direction of motion of conductive electrons with different spins. On the contrary, information can be transmitted through the spin of electrons, rather than through the charge of traditional materials, which does not involve the dissipation process. This discovery makes people full of hope for making new computer chips and other components in the future. The body of topological insulator is insulated just like the insulator that people usually know, but there are always conductive edge states on its boundary or surface, which is the most unique property different from ordinary insulator. This kind of conductive edge state is stable, and the direction of motion of conductive electrons with different spins. On the contrary, information can be transmitted through the spin of electrons, rather than through the charge of traditional materials, which does not involve the dissipation process. This discovery makes people full of hope for making new computer chips and other components in the future. The body of topological insulator is insulated just like the insulator that people usually know, but there are always conductive edge states on its boundary or surface, which is the most unique property different from ordinary insulator. This kind of conductive edge state is stable, and the direction of motion of conductive electrons with different spins. On the contrary, information can be transmitted through the spin of electrons, rather than through the charge of traditional materials, which does not involve the dissipation process. This discovery makes people full of hope for making new computer chips and other components in the future