Carbon Nanotubes: The Building Blocks For Next Gen Products And Technologies
Carbon Nanotubes: The Building Blocks For Next Gen Products And Technologies
Carbon nanotubes (CNTs) are allotropes of carbon with a cylindrical nanostructure. These cylindrical carbon molecules have unusual properties that make them potential successors to graphite for some of its current applications.

What are Carbon Nanotubes?
Carbon nanotubes (CNTs) are allotropes of carbon with a cylindrical nanostructure. These cylindrical carbon molecules have unusual properties that make them potential successors to graphite for some of its current applications. CNTs have been researched extensively for their great thermal and electrical conductivity as well as mechanical and physical properties.

History and Early Discoveries
Early research into them can be traced back to Sumio Iijima's 1991 discovery of multi-walled Carbon Nanotubes Iijima was observing buckyball synthesis when he noticed tube-like structures consisting of several graphitic layers rolled up into a cylindrical shape. Initially thought of as a curiosity, further research revealed these nanotubes possessed extraordinary mechanical, thermal and electrical properties.

In 1993, scientists discovered that they could be produced as a single layer of graphite rolled up into a seamless cylinder. Known as single-walled nanotubes or SWNTs, they exhibited even more enhanced properties compared to multi-walled carbon nanotubes. Since those initial discoveries, they have become one of the most widely researched nanomaterials in the world.

Types
There are two main types of carbon nanotubes- single-walled nanotubes (SWNTs) and multi-walled nanotubes (MWNTs). SWNTs consist of a single graphene cylinder and have a diameter of roughly 1 nanometer. MWNTs contain multiple rolled graphene sheets inside one another like layers of an onion giving them a higher diameter range of 2-100 nanometers. Both types can be either metallic or semiconducting depending on their helicity and chirality.

Emerging Applications across Industries
Ever since their discovery, researchers have explored potential industrial applications of CNTs that capitalize on their extraordinary properties. Some emerging and promising applications include:

Electronics - CNTs are being utilized to produce faster and more powerful microchips, flexible touchscreens, data storage devices, batteries and conductive ink for printed electronics.

Composites - CNTs are mixed into materials like plastics and cement to imbue them with higher strength, flexibility and conductivity. Applications include lightweight aircraft components, body armor, racquet frames and infrastructure projects.

Bio Applications - CNTs can be functionalized for biomedical uses like targeted drug delivery, prosthetics, biosensors and implant coatings. Their small size also allows intracellular interactions.

Energy - CNTs feature in supercapacitors, rechargeable batteries, fuel cells and solar panels to boost efficiency, storage and lifespan compared to conventional materials.

Mass scale production challenges
While CNTs offer breakthrough capabilities, mass production at low costs for commercial applications has proven challenging. Key bottlenecks include large-scale, high-volume and low-cost synthesis methods and post-processing to separate metallic and semiconducting nanotubes. Issues related to CNT dispersion, alignment, localization and interfacing with other materials also require solutions. However, continuous R&D in synthesis technologies like chemical vapor deposition is leading to higher yields and purer outputs.

Future opportunities and global
The global market is expected to grow substantially in the coming years as commercial applications expand and production challenges diminish. Asian countries like China, Japan and South Korea currently dominate both research and manufacturing. However, North America and Europe are also investing heavily in nanotech initiatives involving carbon nanotubes. Given their multiple roles across industries, CNTs could become integral parts of futuristic materials and technologies that drive tomorrow's economy.

They represent one of the most promising nanomaterials for engineers and scientists. While synthesis scale-up is still ongoing, the wide range of potential applications spanning from electronics to bio has ensured CNTs remain at the forefront of nanotechnology research worldwide. As commercial manufacturing improves further, carbon nanotubes are positioned well to profoundly impact both traditional and emerging industries in the decades ahead.
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