The Application Areas OF Hexagonal Boron Nitride

 

Hexagonal Boron Nitride | cdn11.bigcommerce.com

The structure of a boron nitride nanotube and a carbon nanotube is similar in a lot of ways. It is not like a carbon Nanotube that comprises carbon when it comes to a boron nitride Nanotube the main components are nitrogen and boron. Coming to the diameter of a hexagonal boron nitride is so small that you are able to measure it in Nanometers. One thing is for sure the use of hexagonal boron nitride has grown in the last few years and it has gone on to become popular at an extensive level.

Hexagonal boron nitride and their properties

When it comes to boron and carbon nanotubes both of them are known to share distinct characteristics. This is apart from taking their structure into account and in terms of properties, they are similar in every possible way. Both nanotubes are known to possess superior tensile strength with thermal conductivity on the higher side.

In optical applications, boron nitride nanotubes are used since it happens to be transparent. It is light and strong at the same time. The hydrophobicity and biocompatibility of boron nitride Nanotube are bound to be a tinge intriguing. If you compare carbon nanotubes, they have a large bandwidth that is not affected by any form of chirality fluctuations. Hexagonal boron nitride is resistant to high temperatures along with oxidation.

In the midst of this, they are excellent electrical insulators. For this reason, it turns out to be extremely adaptable. This is bound to generate a piezoelectric property. What it means is that when it is mechanically stressed it would be able to generate an electrical charge and for this reason, hexagonal boron nitride is being used at an extensive level.

The process of synthesis with hexagonal boron nitride

A careful analysis will indicate that boron nitride nanotube is difficult to manufacture. For their synthesis of boron nitride nanotube, a high temperature is necessary. The creation of the boron nitride nanotube has been difficult for a considerable point of time. But a lot of credit is due to technological advancements as most of the challenges, like the prevalence of the contaminants, are something that has to be overcome with relative ease.

By using the method, you will be able to develop carbon nanotubes. It is subject to be mainly used in the production of boron carbon nanotubes. Both of them are being developed from the chemical deposition method. As part of the method, the solid and liquidboron nitride sources would be used to make boron nanotubes where it is present in the company of catalysts like nickel. The high temperature does have a major role to play at the same time.