The United States’ copper-based electric grid is estimated to leak electricity at an estimated five percent per 100 miles (161 km) of transmission. With power plants usually located far from where the electricity they produce will actually be consumed, this can add up to a lot of wasted power. A weave of metallic nanotubes known as armchair quantum wire (AQW) is seen as an ideal solution as it can carry electricity over long distances with negligible loss, but manufacturing the massive amounts of metallic single walled carbon nanotubes required for the development of this “miracle cable” has proven difficult. Now researchers have made a pivotal breakthrough that could make the development of such a cable possible.
Armchair quantum wire gets its name from the metallic single-walled carbon nanotubes (SWCN) of which it is made. These SWCNs are dubbed armchairs due to their unique shape, and while they are great at carrying current, they can’t yet be made on their own. They are currently grown in batches with other kinds of nanotubes and have to be separated out – not an easy task given that a human hair is 50,000 times larger than a single nanotube.
Working towards this ultimate goal, the team has found a way to take small batches of individual nanotubes and make them dramatically longer. They say that ideally, long armchair nanotubes could be cut, re-seeded with catalyst and re-grown indefinitely, potentially making the development of a cable that will make an efficient electric grid of the future possible.