What elements make up carbon nanotube?

Carbon nanotube, also called buckytube, nanoscale hollow tubes composed of carbon atoms. The cylindrical carbon molecules feature high aspect ratios (length-to-diameter values) typically above 103, with diameters from about 1 nanometer up to tens of nanometers and lengths up to millimeters.

What metal has carbon nanotubes?

CNT-Cu nanocomposites. Copper is a ductile material (density = 8.9 g/cm3) with good electrical (∼109 Sm−1) and thermal conductivity (400 W m−1 K−1). It can be used as a building material, conductor of heat and electricity, and constituent of various metal alloys.

Is carbon nanotube a semiconductor?

“Carbon nanotubes are the ideal semiconductor,” says Michael Arnold, a materials scientist at the University of Wisconsin–Madison. Carbon nanotube transistors exhibit ballistic conduction: electrons fly through them like speeding bullets, which means they can enable speedier calculations.

What are 3 properties of carbon nanotubes?

Carbon Nanotubes Properties

CNTs have high thermal conductivity.
CNTs have high electrical conductivity.
CNTs aspect ratio.
CNTs are very elastic ~18% elongation to failure.
CNTs have very high tensile strength.
CNTs are highly flexible — can be bent considerably without damage.
CNTs have a low thermal expansion coefficient.

How do you make carbon nanotubes?

Techniques have been developed to produce carbon nanotubes in sizable quantities, including arc discharge, laser ablation, high-pressure carbon monoxide disproportionation, and chemical vapor deposition (CVD). Most of these processes take place in a vacuum or with process gases.

What are the types of carbon 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.

Is carbon nanotube a metal?

Unlike graphene, which is a two-dimensional semimetal, carbon nanotubes are either metallic or semiconducting along the tubular axis. The rule regarding metallic versus semiconductor behavior has exceptions because curvature effects in small-diameter tubes can strongly influence electrical properties.

What is a carbon nanotube semiconductor?

Carbon nanotubes are nearly atomically thin carbon structures — just 1-1.2 nanometers thin. “Pure” carbon nanotubes are a powerful semiconductor, one that can compete with silicon for integration into microprocessors.

What are the characteristics of carbon nanotubes?

CNTs have extraordinary electrical conductivity, heat conductivity, and mechanical properties. They are probably the best electron field-emitter possible. They are polymers of pure carbon and can be reacted and manipulated using the well-known and tremendously rich chemistry of carbon.

How is a nanotube made?

Carbon Nanotubes Synthesis. There are a number of methods of making CNTs and fullerenes. The fullerenes and CNTs are formed by plasma arcing of carbonaceous materials, particularly graphite. The fullerenes or carbon nanotubes appear in the soot that is formed, while the CNTs are deposited on the opposing electrode.

How do you make a nanotube?

In the CVD process, manufacturers can combine a metal catalyst (such as iron) with carbon-containing reaction gases (such as hydrogen or carbon monoxide) to form carbon nanotubes on the catalyst inside a high-temperature furnace. The CVD process can be purely catalytic or plasma-supported.

What are carbon nanotubes uses?

The properties of carbon nanotubes make them ideal for enhancing different kinds of structures – for example, sports equipment, body armour, vehicles, etc., where they are being widely used. The nanotubes create networks within the composite material for instance to increase stiffness and material damping.

How is the structure of a carbon nanotube formed?

The structure of a carbon nanotube is formed by a layer of carbon atoms that are bonded together in a hexagonal (honeycomb) mesh. This one-atom thick layer of carbon is called graphene, and it is wrapped in the shape of a cylinder and bonded together to form a carbon nanotube.

Why are carbon nanotubes more conductive than copper?

electrons and atoms, a carbon nanotube is highly conductive. The strong bonds between carbon atoms also allow carbon nanotubes to withstand higher electric currents than copper. Electron transport occurs only along the axis of the tube.

What are the band gaps of carbon nanotubes?

However, most nanotubes are semiconductors with a 0.1 to 0.2 eV band gap. Controlling their band structure one can obtain a variety of electronic devices [10]. It is a common practice to subdivide the CNT in two types, i.e. the achiral and chiral ones.

Why are single walled carbon nanotubes so important?

ABSTRACT: Single-walled carbon nanotubes (SWNTs) are ideal systems for in- vestigating fundamental properties in one-dimensional electronic systems and have the potential to revolutionize many aspects of nano/molecular electronics.