What is the difference between nanowires and nanotubes?
Compared to solid nanowires, nanotubes have a more complex structure: essentially one-atom-thick sheets of pure carbon, with the atoms arranged in a pattern that resembles chicken wire. They behave in many ways as one-dimensional materials, but are actually hollow tubes, like a long, nanometer-scale drinking straw.
What is the structure of carbon nanotubes?
The structure of CNT consists of enrolled cylindrical graphitic sheet (called graphene) rolled up into a seamless cylinder with diameter of the order of a nanometer. It is understood that CNT is the material lying in between fullerenes and graphite as a quite new member of carbon allotropes (Tanaka et al., 1999).
What are different types of structures of nanotubes?
In addition to the two different basic structures, there are three different possible types of carbon nanotubes. These three types of CNTs are armchair carbon nanotubes, zigzag carbon nanotubes, and chiral carbon nanotubes.
What is the shape of a nano tube?
Where buckyballs are round, nanotubes are cylinders that haven’t folded around to create a sphere. Carbon nanotubes are composed of carbon atoms linked in hexagonal shapes, with each carbon atom covalently bonded to three other carbon atoms.
What is difference between nanorods and nanowires?
Nanorods are thicker in comparison to nanowires. Nanowires have diameters which are much smaller than their lengths. They can be considered one dimensional structures. Nanorods have much shorter length than nanowires and their diameters are greater than the wires.
What are nanowires used for?
Nanowires can be used for MOSFETs (MOS field-effect transistors). MOS transistors are used widely as fundamental building elements in today’s electronic circuits. As predicted by Moore’s law, the dimension of MOS transistors is shrinking smaller and smaller into nanoscale.
What is the dimensionality of nanowires?
Typical nanowires exhibit aspect ratios (length-to-width ratio) of 1000 or more. As such they are often referred to as one-dimensional (1-D) materials. Nanowires have many interesting properties that are not seen in bulk or 3-D (three-dimensional) materials.
What are nanorods used for?
Recent years, ZnO nanorods have been intensely used to fabricate nano-scale electronic devices, including field effect transistor, ultraviolet photodetector, Schottky diode, and ultra-bright light-emitting diode (LED).
What are nanowires made from?
Nanowires can be made from a wide variety of materials, including silicon, germanium, carbon, and various conductive metals, such as gold and copper. Their small size makes them good conductors, with electrons passing easily through them, a property that has allowed for important advances in computer science.